All Materials

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal environments inside which they formed. The Admixti variant of mutanite shows signs of exposure to multiple abyssal environment types. Admixti seems to have a stabilizing effect on empty space around it, rendering nearby warp drives inoperable as long as it remains exposed.

The AG-Composite Molecular Condenser is a molecular-forging tool used with a specific combination of chemicals obtained from stellar gas clouds. The processes using this tool can produce some of the most complex and potent pharmaceutical chemicals available. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

Tritanium based alloy for use in applications requiring extremely high strength and temperature resistance. Some examples are thruster mounts or afterburner nozzles.

A decoder package used to obtain a Minmatar Listening Outpost that will listen in on the Amarr communications network. This particular splice can occasionally be found in Amarr Cryptograph Storage that are located in Amarr Operation Centers. This item can be exchanged along with some LP for a Minmatar Listening Outpost at a Tribal Liberation Force loyalty point store.

An encoder splice used to obtain a Minmatar Propaganda Broadcast Structure that will broadcast into the Amarr communications network. This particular splice can occasionally be found in Amarr Cryptograph Storage that are located in Amarr Operation Centers. This item can be exchanged along with some LP for a Minmatar Propaganda Broadcast Structure at a Tribal Liberation Force loyalty point store.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal environments inside which they formed. The Amperum variant of mutanite forms in an Electrical abyssal environment and is theorized to generate a powerful electrical current, but only when inside a sealed void outside the range of any conductive or sensory apparatus.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Recent developments in salvager technology have allowed a greater variety of ancient components to be recovered from the wrecks of Sleeper drones. Initial scans of this salvaged Ancient Radar Decorrelator indicate that it includes technology that might be able to find a home in the sensor equipment of capsuleer ships. Engineers across the cluster have begun attempting to reverse engineer the Sleeper techniques used in this component, with Amarr researchers expressing particular interest.

The abundance of water on terrestrial planets is often a misconception: What many refer to offhandedly as "water" is often an amalgamation of many liquids, microscopic particles, and saturated compounds combined with water and other liquids. Aqueous liquids represent those liquids from which pure water can be separated easily from waste or hazardous particles, but only using the proper equipment.

Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. Available primarily in null security status and wormhole systems.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Typical armor plating.

ANNs preside over a starship's various electronics subsystems and keep everything in working order, rerouting power and processing when systems are damaged or go offline.

Nitrogen, oxygen, neon, helium, xenon, methane, nitrous oxide, ozone - a host of trapped vapours that can be used to catalyze numerous chemical processes.

Augmented Eifyrium is a very rare form of Eifyrium ore with a relative density of Zydrine mineral content 15% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

At the very bottom of the food chain are autotrophs, those organisms that produce carbohydrates, proteins, and fats for higher life forms to consume. When properly gathered and ordered, they can be plied into industrial fibers, which then go on to contribute to advanced material technologies.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

The AV-Composite Molecular Condenser is a molecular-forging tool used with a specific combination of chemicals obtained from stellar gas clouds. The processes using this tool can produce some of the most complex and potent pharmaceutical chemicals available. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

Axosomatic Neurolink Enhancers are used to enhance the integration of specific capsuleer autonomic biosystems with neurolinked ship systems The use of Axosomatic Neurolink Enhancers is particularly favored by the Caldari Navy in conjunction with military capsuleer neurolink technology.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. Available primarily in high security status star systems.

The term “bacteria” covers a wide, diverse family of unicellular microorganisms, from those found in almost every climate in New Eden to those that thrive in the bodies of other living beings. Though some bacteria are known to convey diseases, others are more helpful than harmful to humans.

Iron and nickel are two widespread, easily recognized examples of base metals, or those metals that oxidize relatively easily. Their tremendous usefulness in numerous applications ensures that base metals are always in high demand. Thankfully, so is their abundance on most planetary surfaces.

Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.

Similar to an ancient battery, a biocell instead uses biofuels distilled from organic material and precious metals to produce an electrical current in a self-contained, modular unit. However, modern biocells dwarf the capabilities of ancient batteries by several orders of magnitude.

The most widely used, renewable solid fuel in the cluster, biofuel production is present in some fashion on almost every inhabited world. A steady fuel source can be maintained in a planetary economy by converting living material directly into energy instead of relying on fossil fuels.

A catch-all term for composite material obtained from living things, biomass has several unique properties that make it ideal for various industrial, commercial, and personal uses. Its most important attribute is that it retains many of its nutrients even after being harvested, transported, and processed.

As the core fundamentals of organic life constantly evolve and develop on micro and macro levels, the constant production and distribution of biotech research is a mandatory part of ongoing advances in countless scientific disciplines.

Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. Available primarily in null security status and wormhole systems.

A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid. Available in 1.0 security status solar systems or lower.

Boosted Eifyrium is a rarer form of Eifyrium ore with a relative density of Zydrine mineral content 10% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Bootleg Ytirium is an uncommon form of Ytirium ore with a relative density of Isogen mineral content 5% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.

This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.

When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.

By integrating transcranial microcontrollers into a circuit made from synthetic synapses, the broadcast node is able to communicate directly with various station functions and with negligible signal loss and latency. The addition of computerized guidance systems, each running independent navigation system software routines, allows a single node to coordinate starship docking procedures, drone operations, and even station defenses.

A multifunction chip with digital modulator and oscillator utilized in drone communication hardware. This one looks broken.

Autonomous field programmable holographic signal processor with embedded holographic data storage. Used in most modern computers, the ubiquitous AFPHSPEHDS is colloquially known as the "Aphid". This name leads of course to many bad puns about bugs in the system.

Difficult to procure and expensive to create, this rare chemical compound plays an important role as a neuroprotective agent for capsule pilots. It is integrated into the life-support systems on board a capsuleer's vessel, where it helps limit brain cell death and neurodegeneration.

A soft, malleable metal often occuring with zinc ores. Has a wide variety of applications; used in electroplating, superconductors, and as an alloy in various types of structure and equipment.

A dark-golden hued alloy composed of cadmium and caesium. Often confused with tritanium due to its tint. An essential ingredient in various composites and condensates.

A golden Alkali metal used primarily in propulsion systems. Also performs a variety of catalytic functions in the nuclear and photoelectric arenas.

A decoder package used to obtain a Gallente Listening Outpost that will listen in on the Caldari communications network. This particular splice can occasionally be found in Caldari Cryptograph Storage that are located in Caldari Operation Centers. This item can be exchanged along with some LP for a Gallente Listening Outpost at a Federal Defense Union loyalty point store.

An encoder splice used to obtain a Gallente Propaganda Broadcast Structure that will broadcast into the Caldari communications network. This particular splice can occasionally be found in Caldari Cryptograph Storage that are located in Caldari Operation Centers. This item can be exchanged along with some LP for a Gallente Propaganda Broadcast Structure at a Federal Defense Union loyalty point store.

Most visibly used in starship development, especially on capsuleer craft, other types of camera drones are also employed in the fields of nano-medicine, surveillance, and entertainment.

Capacitor consoles are a necessary component of starship capacitor units.

Often referred to as the building blocks of life, carbon compounds form the basis of most organic material; hence, they are ideally suited for use in the early development of advanced, reactive molecules, such as those used in biofuel and supertensile structures.

Cheap and formed from abundant resources, basic carbon fiber is a material with almost unlimited applications. It is particularly useful in the space industries when reinforced with additional polymers.

A synthetic carbon compound created from raw hydrocarbons and silicate rock materials. Important ingredients in a variety of carbon- and gel-based composites.

C-86 epoxy resin is most commonly applied as a thin film to the structures housing propulsion systems. The tremendous flame-retardant properties of materials covered in the resin help prevent heat buildup and minimize onboard fires.

A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

At first glance this coordinator appears to be a common enough piece of equipment, albeit an odd one to be found inside a drone. Designed to plot various points in time across a potentially infinite period, these devices are often used for scientific calculations. For some unknown reason, this particular coordinator is configured to synchronize its processing speed in time with the distance travelled between two points. What purpose this serves remains a mystery, but the object's basic functionality can be reconfigured. With the addition of a few other components, it would allow electronics systems to more easily withstand the interference from subspace distortion.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

Still fully intact and operational, this device stands as a testament to the ancient Sleeper's impressive scientific achievements. Although thousands of years old, the technology inside it is not only comparable to modern electronic designs, but in some cases even exceeds it. Central system controllers lie at the heart of a starship's electronics systems. They are responsible for coordinating the flow of information between various analyzers and control nodes, monitoring subsystems, and ensuring they receive the appropriate supply of electrical power. Tackling such complex tasks simultaneously (and with near-zero latency) demands immense processing power and faultless, error-free programming. Traditionally, a CSC would comprise a significant portion of the cost in a starship's electronics systems, but the fullerene-based Sleeper designs have provided breakthroughs in the efficiency of circuitry and presented new and improved methods for increasing computational accuracy. The end result is a drastically reduced cost for top-of-the-line performance.

A fine powder synthesized from various natural gases and solids through reactant processes. Used as a strengthening agent in both armor plating and shield generators, as well as constituting an important part of many other composite materials.

Micro Circuits are one of the most common electronics components seen in use. This one has seen better days but could still be of some use.

A chiral structure is a crystal that is unsymmetrical, which makes it volatile in some situations but ideal for conductivity, especially in micro-circuitry. Using semi-rare chiral structures in electronics has allowed for an unprecedented advancement in the field of miniaturization.

An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

A steel-gray, lustrous metal with a wide variety of applications. Commonly used as a catalyst for chemical processes.

A chemical flux in strangely distorted mineral form produced by the subtle, yet profound effects of the intermediate deadspace environment, Chromodynamic Tricarboxyls are principally obtained by mining and reprocessing certain rare ores to be found in deadspace, such as the weirdly glowing Cthonic Attar and Amethystic Crystallite asteroids. With increasing interest in the useful properties of these compounds, other sources have been discovered, typically in extreme or isolated space environments where gravitational effects may vary unpredictably. Chromodynamic Tricarboxyls may be unstable but they have many uses, including use as a catalyzing material in synaptic acceleration implants and boosters. A darker use is the refinement of the strange material into "Deathglow", a deeply mind-altering illegal booster that has recently found its way into the underground markets of New Eden.

A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes. Available in 1.0 security status solar systems or lower.

A silvery ferromagnetic element, used among other things in superalloys, magnetics, battery electrodes, and various metals and steels.

A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .

Cogni-Emotive Neurolink Enhancers are used to enhance the integration of specific capsuleer autonomic biosystems with neurolinked ship systems The use of Cogni-Emotive Neurolink Enhancers is particularly favored by the Federation Navy in conjunction with military capsuleer neurolink technology.

Organic flora and fauna growing on worlds across the cluster technically qualify as “alien life,” though none of it has registered as sentient. However, their usefulness as comestibles or building materials in other areas of industry is invaluable.

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. This material is compressed and a much more compact form of the original material.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine. This material is compressed and a much more compact form of the original material.

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Augmented Eifyrium is a very rare form of Eifyrium ore with a relative density of Zydrine mineral content 15% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material is compressed and a much more compact form of the original material.

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. This material is compressed and a much more compact form of the original material.

Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid. This material is compressed and a much more compact form of the original material.

Boosted Eifyrium is a rarer form of Eifyrium ore with a relative density of Zydrine mineral content 10% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Bootleg Ytirium is an uncommon form of Ytirium ore with a relative density of Isogen mineral content 5% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material is compressed and a much more compact form of the original material.

Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material is compressed and a much more compact form of the original material.

Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material is compressed and a much more compact form of the original material.

Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates. This material is compressed and a much more compact form of the original material.

Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material is compressed and a much more compact form of the original material.

In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material is compressed and a much more compact form of the original material.

Doped Eifyrium is an uncommon form of Eifyrium ore with a relative density of Zydrine mineral content 5% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

This is the most common form of Ducinium ore with a standard relative density of Megacyte mineral content. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

This is the most common form of Eifyrium ore with a standard relative density of Zydrine mineral content. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material is compressed and a much more compact form of the original material.

Firewater Ytirium is a rarer form of Ytirium ore with a relative density of Isogen mineral content 10% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. This material is compressed and a much more compact form of the original material.

Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone. This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone. This material is compressed and a much more compact form of the original material.

In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates. This material is compressed and a much more compact form of the original material.

Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material is compressed and a much more compact form of the original material.

Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material is compressed and a much more compact form of the original material.

Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material is compressed and a much more compact form of the original material.

Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material is compressed and a much more compact form of the original material.

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. This material is compressed and a much more compact form of the original material.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine. This material is compressed and a much more compact form of the original material.

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. This material is compressed and a much more compact form of the original material.

Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material is compressed and a much more compact form of the original material.

With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material is compressed and a much more compact form of the original material.

Imperial Ducinium is a very rare form of Ducinium ore with a relative density of Megacyte mineral content 15% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material is compressed and a much more compact form of the original material.

Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material is compressed and a much more compact form of the original material.

Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material is compressed and a much more compact form of the original material.

The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material is compressed and a much more compact form of the original material.

Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material is compressed and a much more compact form of the original material.

Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material is compressed and a much more compact form of the original material.

Moonshine Ytirium is a very rare form of Ytirium ore with a relative density of Isogen mineral content 15% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

This is the most common form of Mordunium ore with a standard relative density of Pyerite mineral content. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Noble Ducinium is an uncommon form of Ducinium ore with a relative density of Megacyte mineral content 5% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material is compressed and a much more compact form of the original material.

Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material is compressed and a much more compact form of the original material.

Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material is compressed and a much more compact form of the original material.

Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material is compressed and a much more compact form of the original material.

Plum Mordunium is an uncommon form of Mordunium ore with a relative density of Pyerite mineral content 5% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Plunder Mordunium is a very rare form of Mordunium ore with a relative density of Pyerite mineral content 15% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. This material is compressed and a much more compact form of the original material.

Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material is compressed and a much more compact form of the original material.

When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts. This material is compressed and a much more compact form of the original material.

Prize Mordunium is a rarer form of Mordunium ore with a relative density of Pyerite mineral content 10% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. This material is compressed and a much more compact form of the original material.

Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material is compressed and a much more compact form of the original material.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material is compressed and a much more compact form of the original material.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. This material is compressed and a much more compact form of the original material.

With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material is compressed and a much more compact form of the original material.

Royal Ducinium is a rarer form of Ducinium ore with a relative density of Megacyte mineral content 10% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material is compressed and a much more compact form of the original material.

Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. This material is compressed and a much more compact form of the original material.

In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. This material is compressed and a much more compact form of the original material.

Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts. This material is compressed and a much more compact form of the original material.

Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks. This material is compressed and a much more compact form of the original material.

This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. This material is compressed and a much more compact form of the original material.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. This material is compressed and a much more compact form of the original material.

Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. This material is compressed and a much more compact form of the original material.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. This material is compressed and a much more compact form of the original material.

Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. This material is compressed and a much more compact form of the original material.

Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. This material is compressed and a much more compact form of the original material.

When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. This material is compressed and a much more compact form of the original material.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. This material is compressed and a much more compact form of the original material.

When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

This is the most common form of Ytirium ore with a standard relative density of Isogen mineral content. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. Available primarily in high security status star systems.

Oxidized coolant is required to produce the temperatures needed to force rare particles to condense out of ordinary matter, which is the most economic way to produce valuable base elements in bulk.

Precious alloys can be reprocessed into multiple minerals.

Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. Available primarily in high security status star systems.

An extremely conductive synthetic compound of high molecular weight. Used in the construction of electronics.

Used to build Tech II ship upgrades.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal environments inside which they formed. The Conflagrati variant of mutanite forms in a Firestorm abyssal environment and is always 0.97 degrees kelvin warmer than the environment in which it is stored, but its thermal conductivity is reduced the hotter it becomes.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Metal girders, plasteel concrete, and fiber blocks are all common construction materials used in almost every large-scale building or manufacturing project throughout New Eden.

Consumer electronics encompass a wide variety of individual goods, from entertainment media and personal computers to slave collars and children's toys.

So named for its myriad electrodynamic properties, Lorentz Fluid exhibits strong conductivity with extreme resistance to heat.

A soup of nanite assemblers typically used in armor manufacturing processes. This compound needs to go through purification before it's of use again.

This specially blended fluid is ideal for transferring thermal energy away from sensitive machinery or computer components, rerouting it to heat sinks so it can be eliminated from the system.

When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

Counter-Subversion Sensor Arrays are a component used to harden supercapital ship systems against hostile information warfare and subversion efforts. Highly advanced versions of these arrays are incorporated in the most secure capsuleer neurolink protection technologies used by naval capital pilots.

While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. Available primarily in null security status and wormhole systems.

Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. Available primarily in low security status star systems.

The base elements present in certain synthetic oils can, at extreme temperatures, produce habitable environments for genetically engineered extremophile. The byproduct of their rapid life-death cycle is a highly thermal resistant solution ideal for hybrid electronics.

Precious mineral compounds can be reprocessed into multiple minerals.

An exceptionally hard material created from crystallite alloys and carbon polymers, crystalline carbonide is a primary component in various forms of advanced Gallente technology, such as thrusters and armor plating.

Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. Available primarily in low security status star systems.

This rare isotope of the mineral Isogen naturally forms stable bipyramidal crystals in the absence of the tremendous forces that typically form the more common crystal forms of Isogen, such as found in asteroids or moons. Crystalline Isogen-10 can form in space under the correct local conditions, typically requiring the abnormal gravitation fields that are found in unusual configurations of space-time topology like Abyssal Deadspace. Isogen-10 has been determined to be useful in the construction of light but strong materials suited to varying gravitational forces and associated accelerations. It is possible this form of Isogen could be broken down into other isotopes but they would likely be unstable, and such processes would run the risk of unleashing large quantities of energy.

A polynuclear heterometallic compound created from cobalt and cadmium. Crystallite alloys are a fundamental building block in the creation of crystalline composites.

This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Used to transfer energy from a ships capacitor to a laser gain medium.

The CV-Composite Molecular Condenser is a molecular-forging tool used with a specific combination of chemicals obtained from stellar gas clouds. The processes using this tool can produce some of the most complex and potent pharmaceutical chemicals available. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

ANNs preside over a starship's various electronics subsystems and keep everything in working order, rerouting power and processing when systems are damaged or go offline. This ANN is damaged but doesn't seem to be a total loss.

Precious mineral compounds can be reprocessed into multiple minerals.

Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates. Available in 0.1 security status solar systems or lower.

Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. Available primarily in low security status star systems.

A small wafer of semiconductor material that forms the base for an integrated circuit.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.

Used to transfer energy from a ships capacitor to a laser gain medium. The mechanism on this device is in need of repair.

A rudimentary analysis of this device reveals an amazingly broad potential for the manipulation of nanomachines, allowing the user to reprogram them for numerous roles. The Sleeper defensive systems were so modular that, even though this particular node was designed to coordinate armor-repairing nanoassemblers, it could just as easily be reconfigured for shield defense.

In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. Available primarily in high security status star systems.

Doped Eifyrium is an uncommon form of Eifyrium ore with a relative density of Zydrine mineral content 5% greater than the standard form. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

The same fluid that flows through rogue drone relays, this substance is an amalgamation of various chemical compounds that many scientists theorize to be akin to the life blood of a rogue drone. Whatever the reason, the fluid combined with synaptic relays allows for an astonishingly high flow of data.

A fragment of a rogue drones cerebral cortex.

The beating heart of a rogue drone, this power unit is a marvel of technology providing a greater size/power ratio than is currently achievable by modern designs. With some clever tinkering it is possible to adapt this to interface with current drone technology.

A chunk of the epidermal shielding from a rogue drone, while being both more durable and resistant than standard drone shielding, it is also thinner and more flexible forming, as it does, the skin of a rogue drone.

This drone-designed emitter can be found equipped on some small drone commander units and appears to allow impressively precise manipulation of cargo with tractor beams.

The relay wiring of a rogue drones synaptic system, these wires allow for a much higher flow of power and information than standard empire technology has yet to achieve.

A multipurpose limb of a rogue drone which, in combat models, is a mount for the primary weapon. The modular design of such limbs allows for them to be incorporated into standard drone designs with some ingenuity.

Multifunction chip with digital modulator and oscillator.

This is the most common form of Ducinium ore with a standard relative density of Megacyte mineral content. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Quicksilver mixed with dysprosium forms the soft but extremely resilient dysporite, an amalgamatic alloy which plays a key role in most advanced sensor and reactor technologies.

A relatively rare soft metal, easily dissolvable in mineral acids. Used primarily in the production of laser materials.

This is the most common form of Eifyrium ore with a standard relative density of Zydrine mineral content. Eifyrium is a rare ore that contains a useful concentration of the Zydrine mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Eifyrium was the Zydrine-bearing ore discovered by this group and was named for the Eifyr and Co. contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Electro-Neural Signallers are a component used to harden capital capsuleer neurolink systems against hostile information warfare and subversion efforts. Advanced versions of these devices are incorporated in the most secure capsuleer neurolink protection technologies used by naval capital pilots.

This conductive liquid is able to carry an electrical current due to its unique ionic properties, making it ideal for use as a reactive coolant, a high-energy fuel, or a transference medium for power plants.

A special material emerging from the cutting-edge metamaterial labs, this sheeting is able to redirect a wide range of electromagnetic energies. It is a vital element of internal and external shielding for devices employing ultra high-energy emissions in the manipulation of spatiotemporal topologies.

These ultra-thin nanoplastic sheets are resilient enough to survive the explosion of the Sleeper drones that carry them. The molecular-level circuitry inside them can be encased in layers of protective fullerene alloys that are billions of times their size, allowing electronics systems to be safely embedded just beneath the armor surface.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

A tiny chip with a modified silicon-extract wafer forming the base for an integrated circuit. The chip stores the code for the elite drone's artificial intelligence.

This combat analyzer appears to use the same fundamental programming as standard Empire-issue technology, although it operates at a much higher level of efficiency. These devices are typically employed in fleets where they provide predictive analyses of complex battle scenarios and supplement other combat electronics that handle smaller elements. Combat analyzers are best employed in tasks such as calculating a fleet's success rate, running comparative analyses between fleets and other similarly abstract problem-solving tasks requiring higher levels of heuristic programming. Even though the equipment has been badly damaged, the core functionality remains intact. With a skilled programmer and a talented mechanic, it could be re-integrated into a starship.

Although emergent systems are not fully-fledged Artificial Intelligences, they are often so advanced that they can border on sentience. The means by which they are created is also a common source for claims that they are in fact, full-blown AIs. Emergent system development is said to have been an early focal point in Jovian software design, where they hoped to create an atmosphere in which an advanced system could self-assemble its own consciousness and thus “emerge” as a sentient being. What became of these projects remains unknown, although the Jovians appear to have abandoned these pursuits many millennia ago in favor of something more tangible and containable. Designed from the ground up to perform complex, real-time combat calculations such as weapon tracking and heat optimization, this device shows the signatures of an emergent intelligence. Despite this, various hard limitations have been encoded into the device at the most fundamental level, greatly limiting its potential to evolve any further. Even in its current state though, it represents some of the most advanced combat electronics ever built. Although nothing about the software is in itself revolutionary, it is able to tackle highly complex tasks with a frightening level of speed and efficiency.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Enhanced Electro-Neural Signallers are a component used to harden supercapital capsuleer neurolink systems against hostile information warfare and subversion efforts. Specially enhanced versions of these devices are used to obtain the ultimate in secure capsuleer neurolinks for naval supercapital pilots.

A control unit for Tech II shield systems.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'. Available in 0.0 security status solar systems or lower.

Enriched Uranium is used in many kinds of manufacturing and as a fuel, making it a steady trade commodity. Enriched Uranium is generally manufactured by combining standard semiconductor PVD methods with ionic separation by means of mass spectrometry.

A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

Deposits formed by the precipitation of mineral-rich water. Usable for many purposes, mostly as building-block components for more complex materials.

Recent developments in salvager technology have allowed a greater variety of ancient components to be recovered from the wrecks of Sleeper drones. Initial scans of this salvaged Faraday Force Magnetometer indicate that it includes technology that might be able to find a home in the sensor equipment of capsuleer ships. Engineers across the cluster have begun attempting to reverse engineer the Sleeper techniques used in this component, with Gallente researchers expressing particular interest.

A key generated by the Gallente Federation for unlocking encrypted data. Though this key is single-use, its sequencing may provide Caldari intelligence with clues as to how further keys can be generated.

The churning core of lava planets is rife with felsic magma, or silicate material that is infused with lighter elements, from which basic silicon and other atomic matter may be extracted. Silicon is abundant on many terrestrial planets, but the fastest and easiest way to obtain it, given advances in planetary mining processes, is from felsic magma.

One of the most complex composites known to man, fermionic condensates consist of superconductive boson particles all occupying the same quantum state, thus creating a nearly resistance-free environment for electric current. These condensates have therefore become a staple in advanced reactor manufacture.

An intensely durable and extremely versatile alloy, Fernite, when combined with certain other materials, is a crucial stepping stone in the creation of a whole host of advanced technologies.

A revolutionary ceramic carbide compound, much favored by the Matari both for its earthy quality and its extremely wide range of technological uses.

Ferrofluids are superparamagnetic fluids containing tiny particles of magnetic solids suspended in liquid. The primary component in the creation of ferrogels.

A magnetised liquid, used to control the flow of cold plasma fields in shield systems, reactor cores, pulse generators and thruster systems.

Fertilizer is particularly valued on agricultural worlds, where there is a constant demand for all commodities that boost export value.

Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. Available primarly in low and null security status and wormhole systems.

Firewater Ytirium is a rarer form of Ytirium ore with a relative density of Isogen mineral content 10% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. This moon ore produces 15% more minerals than standard arkonor when reprocessed. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.

A component used inside advanced Triglavian technology such as Extraction SubNodes to shape and direct zero-point energy, the inner workings of the Entropic Regulator continue to baffle the scientists of K-space. This regulator has been damaged causing it to become unstable, but the nature of that instability could help to unlock the secrets of advanced zero-point energy manipulation - making this an extremely valuable item.

When combined with other materials and alloys, fluxed condensates help contribute to a unique quantum state highly conducive to efficient reactor operation.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Interface Circuits are common building blocks of starship subsystems. This one seems a little worse for wear but might be useful for something with a little ingenuity.

Originally this material was only used in the construction of advanced semiconductors, a role in which it still performs admirably. In recent years, however, structural engineers have proven that it has even better applications in nano-electromechanical systems. The unique “superlubricity” – a state of zero or near-zero friction – between mechanical components made of F.I.G significantly limits wear, allowing the tiny devices to operate for exceptionally long periods without the need for maintenance.

Fullerides are highly superconductive materials used in capacitors, armor plating and weapons systems.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. Although all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.

Fulleroferrocene is a rare organometallic compound used to strengthen and supplement other materials. Most commonly, it is used to improve the structural integrity of metal alloys, but research is continuing on its potential applications in nanomechanical devices.

The beating heart of the Sleeper's automated drones, these tiny engines count in the billions. When fully intact, they deliver levels of power efficiency unrivaled by current technology. Unfortunately, whenever a Sleeper drone goes down, these engines are the first to go with them, making it difficult to emulate their functionality without the addition of other components.

A decoder package used to obtain a Caldari Listening Outpost that will listen in on the Gallente communications network. This particular splice can occasionally be found in Gallente Cryptograph Storage that are located in Gallente Operation Centers. This item can be exchanged along with some LP for a Caldari Listening Outpost at a State Protectorate loyalty point store.

An encoder splice used to obtain a Caldari Propaganda Broadcast Structure that will broadcast into the Gallente communications network. This particular splice can occasionally be found in Gallente Cryptograph Storage that are located in Gallente Operation Centers. This item can be exchanged along with some LP for a Caldari Propaganda Broadcast Structure at a State Protectorate loyalty point store.

Gel-matrix biopaste is a highly unstable substance that must be formed from elements that don't combine under normal circumstances. Forcing them to do so requires enormous amounts of energy, but the end product is invaluable to high-end electronics and cybernetic medicine.

Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone. Available in 0.0 security status solar systems or lower.

Livestock are domestic animals raised for home use or for profit, whether it be for their meat or dairy products. This particular breed of livestock has been genetically enhanced using the very latest technology.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone. Available in 1.0 security status solar systems or lower.

In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates. Available in 0.4 security status solar systems or lower.

Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. Available primarily in low security status star systems.

Precious alloys can be reprocessed into multiple minerals.

Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it. Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.

Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.

Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.

Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.

Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.

Precious mineral compounds can be reprocessed into multiple minerals.

This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.

Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.

Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. Available primarily in low security status and wormhole systems.

Goal-Orienting Neurolink Stabilizers are highly advanced pharmaceuticals developed for use by the Republic Fleet in conjunction with military capsuleer neurolink technology. Each of the empire militaries keys their neurolink stabilization to specific autonomic biosystems. These provide baselines, cycles and triggers that allow implants and capsule systems to maintain stable synchronization of capsuleer neurolinks with ship systems.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. Available primarily in low security status and wormhole systems.

Single-walled nanotubes such as these have been at the forefront of advanced electronics production for centuries. The nanoribbons make for some of the best, and smallest, conductors in the world, offering scientists new ways forward in the miniaturization of electronics systems.

An electrical device used in targeting systems and tracking computers.

Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.

A silvery, corrosion-resistant metal used in various metal alloys and, to a lesser extent, in hybrid weapons systems.

A critical component of space stations, starships, or any other isolated environment, these tiny devices are set to trigger alarms when the genetically engineered viruses inside mutate — which means that they've encountered a significant dose of radiation, natural contaminant, or airborne pathogen, signifying that the surrounding crew is in danger.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

In small quantities, heavy metals are vital to life, providing essential minerals for biological processes. In bulk, they are commonly found in most construction materials, forming the most basic components of computer electronics and reinforced structures.

Dideuterium oxide. Water with significant nuclear properties which make it extremely effective as a neutron moderator in various types of power reactors. One of the materials required to keep Control Towers online. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Blue Ice Clear Icicle Glacial Mass White Glaze 0.3 security status solar system or lower: Glare Crust 0.1 security status solar system or lower: Dark Glitter 0.0 security status solar system or lower: Enriched Clear Icicle Gelidus Krystallos Pristine White Glaze Smooth Glacial Mass Thick Blue Ice

Hedbergite is sought after for its high concentration of Pyerite and Nocxium. Available primarily in low security status star systems.

The Helium-3 isotope is extremely sought-after for use in fusion processes, and also has various applications in the fields of cryogenics and machine cooling. One of the materials required to keep Amarr Control Towers online. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Clear Icicle 0.0 security status solar system or lower: Enriched Clear Icicle

With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. Available primarily in low security status star systems.

How do you make a sheet of material absolutely impermeable to specific particles? Simple: You make the material want to stop those particles. Such is the case with hermetic membranes, supertensile fabrics instilled with living genetic material that actively hunts down and absorbs or repels whatever they were bred to counteract.

These advanced nanoassemblers appear to be able to change their molecular structure on the fly, adapting to incoming damage. Without any understanding of how to properly operate them however, they only offer their default formations. Even in such a state, they add a significant amount of resilience to armor plating.

A chemical compound, formed through electrosporadic oxidization of chromium and platinum. Has a wide range of applications in the production of advanced technology and is highly sought-after by industrial manufacturers.

Spectrographic analyses of this vapor cloud's composition indicates the presence of trace amounts of sublimed chromodynamic tricarboxyl compounds. Processing these gases at an appropriate facility should yield usable quantities of chromodynamic tricarboxyls.

An electronic device that generates and amplifies a carrier wave, modulates it with a meaningful signal derived from speech or other sources, and radiates the resulting signal from an antenna. The High-Tech prototype is almost immune to any type of de-scrambling devices, making the transmission more secure.

Raw fossil fuels such as petroleum and mineral oil. Hydrocarbons are crucial building blocks in the production of organic chemicals, plastics and waxes, and are thus one of the most useful materials harvestable from any source.

Hydrogen-2, otherwise known as Deuterium. Due to its unique properties the hydrogen-2 isotope is able to very effectively fuse with other atoms. Useful in a variety of nuclear scenarios, and an essential material for the maintenance of Minmatar Control Towers. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Glacial Mass 0.0 security status solar system or lower: Smooth Glacial Mass

A highly advanced material, critical to ultra-sensitive detectors, relying on hyperbolic anisotropic effects to convert fine changes in local electromagnetic fields to optical processing signals. The fine resolution in mapping local EM fields achieved by such sensors would generally only be of use to scientists but may have military applications.

Hyperflurite is one of the most radioactive substances known to man. Composed of a mixture of radioactive metals and raw hydrocarbons, this luminescent goop provides catalysis for a variety of generative and reactive machine processes.

Whenever the transmission of visual or numerical data is a matter of life and death, the data network needs the fastest possible relay system. Hypersynaptic fibers, due to their immense frequency range and speed of conduction, have become the industry standard for sensor arrays and targeting systems.

Hypnagogic Neurolink Enhancers are used to enhance the integration of specific capsuleer autonomic biosystems with neurolinked ship systems. The use of Hypnagogic Neurolink Enhancers is particularly favored by the Imperial Navy in conjunction with military capsuleer neurolink technology.

This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.

Imperial Ducinium is a very rare form of Ducinium ore with a relative density of Megacyte mineral content 15% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

A series of errors logged as an Amarrian virus attempts a brute force attack, searching for critical exploits in its target’s code. Within the log, there are clues as to the virus' methodology. With enough logs Minmatar security forces might be able to protect against future attacks.

A more advanced version of the common Thruster Console.

The primary difference between military and industrial explosives is that the latter are effective only when used in bulk, and they are never sold or transported with “ready to use” detonators. As such, they must be carefully installed, primed, and triggered from remote locations before their full destructive force can be applied.

The main difference between fibers used in industry and those created for civilian use is the trade-off of comfort for tensile strength and durability. This allows industrial fibers to be used in more severe environments, from electronic component shielding on hostile worlds to solar sails in the frigid void of space.

Fragments of a trojan virus programmed by Matari insurgents. The virus switched friend or foe parameters passed to the infected devices targeting system. Understanding the exact structure and design of the virus will require many fragments, but helps the Amarr to better understand how it might be countered.

Used to build Tech II ship upgrades.

An intact shield emitter component.

Hull breaches are a constant, serious threat during space travel, as well as a dangerous reality to orbital stations, which are too massive to avoid incoming objects. Integrity response drones help mitigate that threat by providing the automated, immediate application of sealants to any detected impact or pressure fracture in the structure they patrol.

Interface Circuits are common building blocks of starship subsystems.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

An electrolyte found in a raw, natural form is called an ionic solution, especially in terms of planetary astronomy. Only after a lengthy process of extraction and refining can the resulting fluid go on to be used for medical, industrial, or nutritive applications.

Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. Available primarily in low security status and wormhole systems.

Light-bluish crystal, formed by intense pressure deep within large asteroids and moons. Used in electronic and weapon manufacturing. Only found in abundance in a few areas. May be obtained by reprocessing the following ores and their variations: Low security status star systems: Omber, Kernite, Hemorphite, Gneiss, Dark Ochre Null security status star systems: Kernite Wormhole systems: Omber, Kernite, Gneiss It is also present in huge amounts in rare ores like Spodumain, Bezdnacine and Rakovene. The rare ore Ytirium also contains significant quantities and is found primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Isotropic Deposition Guides are molecular-forging tools used to achieve extremely precise uniformity in the assembly of hyper-advanced materials, such as neofullerenes, during molecular-forged reaction processes. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

Isotropic Neofullerene Alpha-3 is an advanced material useful for biotechnology applications, particularly those involving genetic engineering and nanoscale medical procedures. The ultra-precise molecular uniformity of Isotropic Neofullerenes allow them to be used for fine tooling and environments that are completely inert and non-reactive at the nanoscale. Different isotropic patterns are also used as masking identifiers that nanites are keyed to recognise and ignore.

Isotropic Neofullerene Beta-6 is an advanced material useful for biotechnology applications, particularly those involving genetic engineering and nanoscale medical procedures. The ultra-precise molecular uniformity of Isotropic Neofullerenes allow them to be used for fine tooling and environments that are completely inert and non-reactive at the nanoscale. Different isotropic patterns are also used as masking identifiers that nanites are keyed to recognise and ignore.

Isotropic Neofullerene Gamma-9 is an advanced material useful for biotechnology applications, particularly those involving genetic engineering and nanoscale medical procedures. The ultra-precise molecular uniformity of Isotropic Neofullerenes allow them to be used for fine tooling and environments that are completely inert and non-reactive at the nanoscale. Different isotropic patterns are also used as masking identifiers that nanites are keyed to recognise and ignore.

Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. Available primarily in low security status star systems.

This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.

Barely salvageable from the wreck of a Sleeper drone, this device could have been something much more impressive when it was fully functional. In its current state it is almost unrecognizable, having been scratched, burned and even chemically melted. It looks like it was housed next to the drone's power core, which would explain the extreme heat damage it suffered when the drone exploded. Stranger yet, it almost seems as if it was lined with some kind of triggered-release corrosive. The self-destruct mechanism – if that's even what it was – only caused so much damage, and the acid didn't burn cleanly through the center of the drive. Even as a shadow of its former self, it can be combined with other components to form a fully functional warp drive. Being capable of this, even in such a bad state, strongly suggests that the device was capable of other types of more advanced interstellar travel. Why a Sleeper drone was equipped with this level of technology remains a mystery.

Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. Available primarly in low and null security status and wormhole systems.

This appears to be a heavily modified version of a standard Gallente drone control unit. Close inspection reveals that it has been modified to allow control of much larger and more sophisticated drones than those available to the empires.

The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone. Available in 0.0 security status solar systems or lower.

This fullerene-lanthanum compound is made by encasing a single lanthanum atom in a cage of carbon atoms. The incredibly high melting point of lanthanum compounds make them ideal for the construction of offensive hardpoints, where heat dissipation is critical to keeping weapons systems operating effectively.

When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

Liquid Ozone is used as a cleaning and disinfectant substance, and plays a vital role in ensuring the smooth day-to-day operation of a starbase. One of the materials required to keep Control Towers online. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Blue Ice Clear Icicle Glacial Mass White Glaze 0.3 security status solar system or lower: Glare Crust 0.1 security status solar system or lower: Dark Glitter 0.0 security status solar system or lower: Enriched Clear Icicle Gelidus Krystallos Pristine White Glaze Smooth Glacial Mass Thick Blue Ice

Livestock are domestic animals raised for home use or for profit, whether it be for their meat or dairy products.

The LM-Composite Molecular Condenser is a molecular-forging tool used with a specific combination of chemicals obtained from stellar gas clouds. The processes using this tool can produce some of the most complex and potent pharmaceutical chemicals available. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

An "Aphid" logic circuit. The nickname is derived from the unfortunate acronym of autonomous field programmable holographic signal processor with embedded holographic data storage.

An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

So named for its myriad electrodynamic properties, Lorentz Fluid exhibits strong conductivity with extreme resistance to heat.

Precious mineral compounds can be reprocessed into multiple minerals.

Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen. Available primarly in low and null security status and wormhole systems.

Precious alloys can be reprocessed into multiple minerals.

This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed. Hedbergite is sought after for its high concentration of Pyerite and Nocxium.

Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. Available primarly in null security status star systems.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

This Shield Emitter, while not being totally out of commission doesn't seem to be living up to its full potential. With some tender loving care the parts could be put to good use.

Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners. Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. Available primarily in high security status star systems.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

These basic elements of all mechanical hardware can come in virtually any shape and size, although composite or modular functionality is highly advantageous in today's competitive market. Factories and manufacturers take these parts and assemble them into finished products, which are then sold on the market.

An isolated thread from a series of complex transactions carried out by an unknown Caldari megacorporation. By itself the thread is meaningless but with enough of them, the Federation could begin to establish a chain of transactions that traces the credits back to their source.

An extremely rare mineral found in comets and very occasionally in asteroids that have traveled through gas clouds. Has unique explosive traits that make it very valuable in the armaments industry. May be obtained by reprocessing Arkonor ore and its variations which are available in null security status and wormhole systems. Significant amounts of Megacyte are also present in rare ores like Spodumain, Bezdnacine, and Talassonite. The rare ore Ducinium also contains significant quantities and is found primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

A slightly damaged but still seemingly usable capacitor console. Capacitor consoles are a necessary component of starship capacitor units.

Most of these tiny circuits have fused together from the heat and force of the Sleeper drone's explosion. The detonation of the drone's power core must have been immense to have had such an effect on these resilient nanostructures.

Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. Available primarly in null security status star systems.

Also known as quicksilver, mercury is a silvery liquid metal whose primary characteristic is the ease with which it forms amalgamatic alloys with other metals. It is therefore extremely useful as a base-block component.

Meta-Molecular Combiners are molecular-forging tools used in the synthesis of highly complex chemicals, incorporating the already complex molecules of advanced pharmaceuticals and other biochemical products. Multi-spectrum operant pharmaceuticals are a typical output product. Molecular-forging tools are cutting-edge technologies developed by leading corporations in the core empires' space-industrial complexes. Inevitably, some of these technological wonders have fallen into the hands of criminals and renegade factions.

Meta-Operant Neurolink Enhancers are a key element of advanced capsuleer neurolink protection technologies. To further enhance the integrity of capital ship pilot connections, Neurolink Protection Cells are installed with Meta-Operant Neurolink Enhancers used to provide even deeper integration of capsuleer autonomic biosystems with neurolinked ship systems.

One of the most useful organic semiconductors discovered in recent years, methanofullerene can be blended with other polymers to create incredibly efficient solar cells, offering a near-endless source of power in places that would otherwise be difficult to supply.

Very flexible metallic mineral, dull to bright silvery green in color. Can be mixed with Tritanium to make extremely hard alloys or it can be used by itself for various purposes. Fairly common in most regions. May be obtained by reprocessing the following ores and their variations: High security status star systems: Pyroxeres, Plagioclase Low security status star systems: Pyroxeres, Kernite, Jaspet, Gneiss, Dark Ochre, Crokite Null security status star systems: Pyroxeres, Kernite, Bistot, Arkonor Wormhole systems: Pyroxeres, Kernite, Gneiss, Bistot, Arkonor

The Micro Circuit is one of the most common electronics components seen in use.

Using advanced residual substrate isolation technology, silicon weave is threaded through layers of tough organic fibers. The resulting microfiber shielding is incredibly resilient and retains the microscopic profile required to shield miniaturized electronics.

Any life form too small to be detected by the unaided human eye qualifies as a microorganism, yet as a whole, this classification of biology covers an enormous and diverse spectrum. From parasites and viruses to fungi and insects, the study or industrial application of these creatures is just as broad.

Advances in molecular chemistry and nanite-reduced computer chips have made almost every form of miniature electronics possible, from the simple holovid viewer and missile tracking systems to wetware cybernetics and quantum entanglement communications.

A decoder package used to obtain an Amarr Listening Outpost that will listen in on the Minmatar communications network. This particular splice can occasionally be found in Minmatar Cryptograph Storage that are located in Minmatar Operation Centers. This item can be exchanged along with some LP for a Amarr Listening Outpost at a 24th Imperial Crusade loyalty point store.

An encoder splice used to obtain an Amarr Propaganda Broadcast Structure that will broadcast into the Minmatar communications network. This particular splice can occasionally be found in Minmatar Cryptograph Storage that are located in Minmatar Operation Centers. This item can be exchanged along with some LP for a Amarr Propaganda Broadcast Structure at a 24th Imperial Crusade loyalty point store.

The backbones of communication across New Eden, fluid routers play a crucial role in all faster-than-light (FTL) transmissions. The Sleeper drones have been equipped with much the same communications equipment as contemporary starships. The only major difference observable with the Sleeper Fluid Routers is in the way transmissions are translated. The drones must be talking in their own proprietary language.

An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. Available primarily in null security status and wormhole systems.

Moonshine Ytirium is a very rare form of Ytirium ore with a relative density of Isogen mineral content 15% greater than the standard form. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

This is the most common form of Mordunium ore with a standard relative density of Pyerite mineral content. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Morphite is a highly unorthodox mineral that can only be found in the hard-to-get Mercoxit ore. It is hard to use Morphite as a basic building material, but when it is joined with existing structures it can enhance the performance and durability manifold. This astounding quality makes this the material responsible for ushering in a new age in technology breakthroughs. May be obtained by reprocessing Mercoxit ore and its variations which are available in null security status star systems.

Precious mineral compounds can be reprocessed into multiple minerals.

A soup of nanite assemblers typically used in armor manufacturing processes.

Though they are only simple machines and very small, nanites can be used to achieve miraculous medical results in small amounts or astounding feats of engineering in mass quantities.

Nano Regulation Gates are a component used to harden supercapital ship systems against hostile infiltration and subversion attempts. Highly advanced versions of these devices are incorporated in the most secure capsuleer neurolink protection technologies used by naval capital pilots.

Only the highly advanced Ukomi superconductor can be rendered small enough for use in nano-factories, microscopic devices programmed to absorb and recycle ambient material into useful matter. Each factory is built from reactive metals, ensuring that they interact properly – or not at all – with their environment, while a mote of industrial explosive automatically destroys them when they have completed their task.

Nanoscale Filter Plates are a component used to harden supercapital ship systems against hostile infiltration and subversion attempts. Highly advanced versions of these components are incorporated in the most secure capsuleer neurolink protection technologies used by naval capital pilots.

Extremely complex molecular-level transistors used in nanoscale electronics, such as microprocessors and capacitor units.

A silvery, shimmering liquid compound, Neo Mercurite is a crucial element in many forms of advanced sensor and processor technology.

This mineral is morphologically similar to the nesosilicate Jadarite but shows subtle differences owing to the process by which radioactive neutron deposition altered the asteroid ore from which it has been extrated. Neo-Jadarite shares with its morphotype a relatively plentiful amount of lithium and boron in its chemical composition, making this mineral highly desirable for a number of industrial processes. Neo-Jadarite is most readily found in Nesosilicate Rakovene ore obtained from fields scattered across the Triglavian-occupied region of Pochven.

As an essential component of the navigational and tactical interface of spaceships, Neocoms are a small but essential cornerstone of the interstellar economy.

A rare, silvery metal. Due to its atmospheric reactiveness, Neodymium is used primarily for light-refractive purposes and as a colorant for other materials.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have radically morphed the mineralogical composition of this asteroid type, suspected to be formerly of the Scordite family, into a new configuration in the Rakovene group. This asteroid is in a field that has undergone longterm exposure to Abyssal Conduits and the subtly altered spacetime environment of Pochven. Concentrations of nesosilicate-type minerals such as Neo-Jadarite can be extracted with reprocessing, alongside typical amounts of Tritanium, Isogen, and Zydrine

Used in conjunction with other equipment inside the capsule, neurovisual input matrices serve the vital function of translating external stimuli into visual data. Ship identifier tags, hostile threat indicators and tactical overlay interfaces are all typical examples of N.I.M at work. The Sleeper variants of these matrices are not substantively different from contemporary devices, needing only a few supplemental components and some minor reprogramming before they can operate in much the same way. The only major deviation is in the energy efficiency. The Sleeper device is almost a thousand times less demanding on a ship's power core.

Nitrogen-14 is a stable, non-radioactive isotope, crucial for maintenance of Caldari Control Towers. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: White Glaze 0.0 security status solar system or lower: Pristine White Glaze

Noble Ducinium is an uncommon form of Ducinium ore with a relative density of Megacyte mineral content 5% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

This colorless, odorless, and usually nonflammable substance is one of seven known monoatomic gases, or those that do not easily combine with other atoms. They are thus well suited for a variety of manufacturing implementations.

Highly resistant to corrosion and oxidation, noble metals are somewhat rarer than base metals, yet they are just as sought after for their different electrical, material, and chemical attributes. When painstakingly refined and purified, some noble metal ores can produce "precious metals."

A highly volatile mineral only formed during supernovas, thus severely limiting the extent of its distribution. Vital ingredient in capsule production, making it very coveted. May be obtained by reprocessing the following ores and their variations available in low security status star systems: Jaspet, Hemorphite, Hedbergite, Dark Ochre, Crokite It is also present in significant amounts in rare ores like Spodumain and Talassonite.

The orderly, compact nature of crystals makes them well suited for a staggering array of manufacturing processes, in which they are just as often the product of the factory as they are incorporated into many of the tools and machinery used therein.

Labs in the Caldari State have recently managed to construct the first known composites with negative refractive indexes. Known as nonlinear metamaterials, these advanced composites are finding increasing use in the State's latest capacitor units and microprocessors.

This power core is able to convert heavy elements into electricity by way of nuclear fission, splitting atoms to produce thermal energy on a massive scale. If they are properly shielded and cooled, there are few safer, cleaner ways to power buildings or large vehicles.

Obsidian ochre, the most valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to absorb scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. Available primarily in low security status star systems.

Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. Available primarily in low security status and wormhole systems.

Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium. Available primarily in low security status star systems.

Precious mineral compounds can be reprocessed into multiple minerals.

This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.

While nanites are ideal for many forms of construction, sealing joints between large structural bulkheads is a job best left to organic mortar, a thick gel that actively permeates every microscopic gap between two parts. Due to the aggressive nature of the genetically engineered bacteria that intelligently guides into place the hardening condensate material, this paste is extremely hazardous to humans and must be applied by robots.

An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

Technically, any chemical compound that contains at least one oxygen atom is an oxide, though some are far more valuable than others. Once broken down and separated from waste material, many oxides can be applied to various industrial processes.

Converting various matter from its basic state to an oxidized form requires an oxidizing compound, the most effective of which is a powerful agent made from pressurized reactive gas. Special containers are required to keep the compound from causing significant damage to common metals and organic life.

Oxy-organic solvents are indispensable to a number of industrial processes involving oxygen and carbon chemistry. These chemicals can be obtained through processing of abundant gases and hydrocarbon deposits.

Oxygen is a commodity in constant demand. While most stations have their own supply units, smaller depots and space crafts rely on imports.

Stable O-16 isotopes, crucial for maintenance of Gallente Control Towers. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Blue Ice 0.0 security status solar system or lower: Thick Blue Ice

This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal weathers inside which they formed. The Peregrinus variant of mutanite forms in Exotic abyssal weather and is the densest form of mutanite but only when completely inert in a zero-energy environment.

A extremely heat-resistant material used in thrusters and as heat shielding.

A carefully engineered latticework designed for precise optical control, photonic metamaterials are a component in advanced Gallente microprocessors and capacitor units.

Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. Available primarily in high security status star systems.

Tracked, wheeled and hover vehicles used within planetary atmosphere for personal and business use.

Harvested in mass quantities, planktic colonies are used for much more than just a bulk food source that flourishes in water-rich environments. Their cumulative biomass has advanced properties that contribute to some of the most advanced material and medical sciences in New Eden.

In the early days of humanity's return to space flight, scientists Planto and Ginch co-discovered a self-sustaining natural structure made entirely from plasma suspended in a planetary magnetic field. Since then, the term has been applied to any such construct, whether occurring under normal conditions or produced artificially using electrical currents.

Carefully fabricated composites of neo mercurite and fernite alloy, plasmonic metamaterials are a key component in advanced Minmatar processors and capacitor units.

This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.

A corrosion-resistant precious metal with an extremely wide range of applications. Often used as a chemical catalyst.

An intensely resilient alloy composed of platinum and technetium. Highly sought-after in the machinery and armament industries.

Plum Mordunium is an uncommon form of Mordunium ore with a relative density of Pyerite mineral content 5% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Plunder Mordunium is a very rare form of Mordunium ore with a relative density of Pyerite mineral content 15% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Precious mineral compounds can be reprocessed into multiple minerals.

A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

Polyaramid textiles are produced when industrial fibers are harvested from autotrophic life forms and subjected to intense pressure using reactive gas pistons. Able to absorb a startling amount of kinetic energy, sheets of this miraculous material can be form-fitted to just about any structure, protecting it from anything but weapons-grade impact forces.

Composite materials, both synthetic and natural, are used in the creation of polytextiles, durable fabrics that see widespread use in the clothing industry, solar sail manufacture, and even classic art.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

This white, dusty substance was extracted from the center of high impact craters in the Sleeper drone's armor. When mixed with other materials it forms a stiff resin that can either be used to hold various pieces of hull sheets together or to coat them for additional protection against radiation and heat.

Your average run-of-the-mill closed loop electrical network with redundant autonomous switchgear.

Power Conduit runs through ships delivering energy like arteries deliver blood through a body. Large ships can have hundreds of miles of conduit.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

The discovery of these microscopic, tubular structures has helped pave new paths in the construction of advanced starships. Known for their unrivaled strength-to-weight ratio, composite metals made of unique PPD fullerene fibers have become the standard for defensive plating. Atomic-scale, nanomechanical systems used inside repair modules often employ fullerene fibers as well.

Precious alloys can be reprocessed into multiple minerals.

A cousin of noble metals, precious metals are named as such because of how infrequently they appear on terrestrial worlds where they were first encountered.

Pressurized oxidizers are used for various purposes in space technology, including as component resources for fuel systems and cryogenic cooling systems.

Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein. Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite. Available primarily in null security status and wormhole systems.

Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss. Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen. Available primarily in low security status and wormhole systems.

Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. Available primarily in low security status star systems.

When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts. Available in 0.0 security status solar systems or lower.

Prize Mordunium is a rarer form of Mordunium ore with a relative density of Pyerite mineral content 10% greater than the standard form. Mordunium is a rare ore that contains a useful concentration of the Pyerite mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Mordunium was the Pyerite-bearing ore discovered by this group and was named for the Mordu's Legion contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

An extremely radioactive luminescent metal, sometimes used as a heating component and a building block for laser generators.

A metallic radioactive compound, Promethium Mercurite emits a faint green glow visible to the naked eye. It is a crucial part of a new generation of processors and capacitor units being developed by the Amarr Empire.

A highly radioactive cadmium-promethium compound, used as a catalytic agent in the manufacturing of thrusters, reactor units and shield emitters, among other things.

One of the most basic components of biological life, proteins form the core DNA structure and are involved in almost every process that sustains a living being. Harvested at the microscopic level, proteins can be put to use in everything from medical genetics to nanite technology.

Improved Blue Pill compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Crash compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Drop compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Exile compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Frentix compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Mindflood compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved Sooth Sayer compound in its uncut form, ready to be processed into the final version of the combat booster.

Improved X-Instinct compound in its uncut form, ready to be processed into the final version of the combat booster.

Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore. Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. Available primarily in low security status star systems.

Standard Blue pill compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Crash compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Drop compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Exile compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Frentix compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Mindflood compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard Sooth Sayer compound in its uncut form, ready to be processed into the final version of the combat booster.

Standard X-Instinct compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Blue Pill compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Crash compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Drop compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Exile compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Frentix compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Mindflood compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong Sooth Sayer compound in its uncut form, ready to be processed into the final version of the combat booster.

Strong X-Instinct compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Blue Pill compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Crash compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Drop compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Exile compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Frentix compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Mindflood compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth Sooth Sayer compound in its uncut form, ready to be processed into the final version of the combat booster.

Synth X-Instinct compound in its uncut form, ready to be processed into the final version of the combat booster.

A soft crystal-like mineral with a very distinguishing orange glow as if on fire. Used as conduit and in the bio-chemical industry. Commonly found in many asteroid-ore types. May be obtained by reprocessing the following ores and their variations: High security status star systems: Scordite, Pyroxeres Low security status star systems: Pyroxeres, Omber, Hedbergite, Gneiss, Crokite Null security status star systems: Pyroxeres, Bistot, Arkonor Wormhole systems: Pyroxeres, Omber, Gneiss, Bistot, Arkonor The rare ore Mordunium also contains significant quantities and is found primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. Available in all known space and wormhole systems.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. Available primarily in low security status star systems.

Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.

Reaction-Orienting Neurolink Stabilizers are highly advanced pharmaceuticals developed for use by the Caldari Navy in conjunction with military capsuleer neurolink technology. Each of the empire militaries keys their neurolink stabilization to specific autonomic biosystems. These provide baselines, cycles and triggers that allow implants and capsule systems to maintain stable synchronization of capsuleer neurolinks with ship systems.

Consisting of any number of volatile atomic structures, reactive gases are the most useful when applied to the fields of explosives, molecular restructuring, and electrical conduction. Great care must be taken when storing or transporting any sizeable quantity.

Very dense metals are often called reactive metals, as their ability to conduct electrical currents and absorb heat is unparalleled. Rarely found in a natural solid state, they are instead usually assembled on an atomic level from particulate matter found in other forms.

Not all automated functions are delicate or complicated enough to warrant advanced computer hardware; relatively mundane tasks are best when assigned to an RCM bank. These sturdy, reliable processing units are able to effectively handle most of the day-to-day operations of stations, starships, and stargates.

Reinforced carbon fiber is enhanced with polymers that increase the tensile strength of the material without notable loss of flexibility. This form of the material is widely used for many purposes in the space industries.

When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.

RCM play an important role in stabilizing a ship's alignment prior to, and in the first moments of, interstellar warp. The Sleeper drone RCM system works in an entirely different manner to contemporary Empire-based technology and yet the angles of alignment produced by their final calculations are always identical. Even though their inner workings remain a mystery, the matrices operate in a predictable and reliable enough fashion to form the basis of a new, slightly more efficient jump drive.

This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed. Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.

With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon. Available primarily in high security status star systems.

These pre-programmed or remote control mechanical tools are commonly used in mass production facilities, hazardous material handling, or dangerous front line military duties such as bomb disarming and disposal.

The properties of this carefully refined liquid make it ideal for controlled combustion whether in or outside of atmospheric environments; its severe volatility requires special containers to resist most forms of impact, high temperatures, and electrical activity during storage and transportation.

An extremely strong compound, made from tungsten rolled in a sheath of platinum. A crucial component in the creation of carbides which have a wide field of utility in the manufacture of various equipment.

Royal Ducinium is a rarer form of Ducinium ore with a relative density of Megacyte mineral content 10% greater than the standard form. Ducinium is a rare ore that contains a useful concentration of the Megacyte mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ducinium was the Megacyte-bearing ore discovered by this group and was named for the Ducia Foundry contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

A transition element harnessed from rare minerals, Scandium commonly sees use as a component of high-intensity light fixtures for deep-space environments, as well as being a strong building block in many deep-space structures and spacecraft due to its extremely high melting point.

A fullerene-scandium compound made by encasing a single scandium atom in a cage of carbon atoms. Scandium is a grey-white element that has historically been incredibly hard to find. Scandium-tipped missiles were once valued for their armor-piercing qualities, which allowed them to wreack havoc deep inside starship hulls. The only thing holding the weapons industry back from these and other similar applications has been the low supply of the material.

A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.

Recent developments in salvager technology have allowed a greater variety of ancient components to be recovered from the wrecks of Sleeper drones. Initial scans of this salvaged Scorched Microgravimeter indicate that it includes technology that might be able to find a home in the sensor equipment of capsuleer ships. Engineers across the cluster have begun attempting to reverse engineer the Sleeper techniques used in this component, with Caldari researchers expressing particular interest.

An expert system used in the construction of missile launchers. This one has been damaged by fire or an explosion.

Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers. Available primarily in high security status star systems.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Camera drones diligently monitor temperature, radioactivity and electrical output of these advanced nuclear reactions. This allows instant adjustments that result in maximum efficiency. With such advanced automation, no human attention is required whatsoever.

Sense-Heuristic Neurolink Enhancers are used to enhance the integration of specific capsuleer autonomic biosystems with neurolinked ship systems The use of Sense-Heuristic Neurolink Enhancers is particularly favored by the Republic Fleet in conjunction with military capsuleer neurolink technology.

This heavily customized tactical processing unit was designed by Guardian Angel engineers for the use in Serpentis capital ships. It contains special optimizations for improved fire control routines and precise stasis webifier operation.

In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite. Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore. Available primarily in low security status star systems.

Precious mineral compounds can be reprocessed into multiple minerals.

Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

Silicate glass is a common construction material, in constant demand throughout New Eden, whether in planetary structures or reinforced for use in space vessels.

Various types of silicon-based and oxygen-based rock formations.

As one of the most common elements in the universe, it's no surprise that silicon has found its way into almost every aspect of manufacturing, resulting in a steady price and perpetual mining operations on most solid planets.

A mineral composite which, in large quantities, gives off a distinct crystalline glow. When combined with other composites, is usable for a variety of manufacturing purposes.

Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber. Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status. Available primarily in low security status and wormhole systems.

An intact section of tritanium based single-crystal alloy i-beam for use in applications requiring extremely high strength and temperature resistance. Some examples are thruster mounts or afterburner nozzles.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

These tiny cubes form the building blocks of many simple structures, from basic walls and doors to entire homes and even industrial office spaces. Whenever a sufficient number of smartfab units are placed together and have been programmed with the same instructions, they will automatically combine to form some portion of that object and then become inert in their new form. With adequately detailed blueprints, there is theoretically no limit to the complexity of object or structure these clever devices can create.

This Thermonuclear Trigger Unit while smashed still seems to have it's nuclei containment field intact and the plasma seems to be near thermal equilibrium. It would be a shame to waste this unit just because of its cosmetic damage.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts. Available in 0.0 security status solar systems or lower.

When chromium and caesium are combined with raw silicates in the proper proportions, Solerium is created. Since its initial discovery, Solerium's uniquely shifting dark-to-bright red hue has prompted poet and musician alike to create hymns in praise of its uniquely shifting deep red hue.

Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. Available in all known space and wormhole systems.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal environments inside which they formed. The Solis variant of mutanite forms in a Gamma abyssal environment and emits trace amounts of cosmic radiation in the presence of harmonic sounds. It is hotly disputed amongst the science community as to which genre of harmonic sound produces the best results.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed. Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.

An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.

This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed. Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.

Sustaining diverse populations of station inhabitants – many of whom come from different worlds with different ecologies – was a medical nightmare until the development of sterile conduits. Each length of flexible, self-repairing tube is powered by breaking down the chemical energy in the water they convey, which itself is laced with smart vaccines able to identify and destroy almost any known antigen.

Stress-Responding Neurolink Stabilizers are highly advanced pharmaceuticals developed for use by the Federation Navy in conjunction with military capsuleer neurolink technology. Each of the empire militaries keys their neurolink stabilization to specific autonomic biosystems. These provide baselines, cycles and triggers that allow implants and capsule systems to maintain stable synchronization of capsuleer neurolinks with ship systems.

An unstable compound of strontium molecules encased in the crystal structure of water. When fed to a Control Tower's force field generator, these clathrates bond with the molecules already in place in the field to create a nigh-invulnerable barrier of energy. A necessary ingredient for Control Towers to go into reinforced mode. May be obtained by reprocessing the following ice ores: 1.0 security status solar system or lower: Blue Ice Clear Icicle Glacial Mass White Glaze 0.3 security status solar system or lower: Glare Crust 0.1 security status solar system or lower: Dark Glitter 0.0 security status solar system or lower: Enriched Clear Icicle Gelidus Krystallos Pristine White Glaze Smooth Glacial Mass Thick Blue Ice

A strong mineral acid, used in many chemical reactions and production processes. One of the most widely used chemicals in history.

When an individual computer system incorporates a wide range of networked utilities, layered processors, and redundant memory cores, it is said to have evolved into a supercomputer. Such systems can be put to use managing spaceships, starbases, or even entire planetary administrations.

Required for highly advanced technologies too numerous to mention to function properly, these conduits are made from super-cooled materials that function as perfect conductors, having an effective electrical resistance of zero.

“Hyperoxidation” was the term given to the process of rapidly fossilizing the carbon structures, readily available in the form of biomass, which forms the basic framework of supertensile plastics. The only amorphous solid known to retain the resilience of other such materials while also adopting conductive properties, supertensile plastic is highly sought after for a wide range of industrial applications.

When found in harvestable quantities beyond the unapproachable heat of an active star, plasma is said to be in a “suspended” state. Specialized electronic equipment is used to attract the ionized particles into collection tubes, after which it can be stored, transported, or applied to a variety of technologies.

Extremely strong fibers, used in laminated armor plating.

A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .

Recent developments in salvager technology have allowed a greater variety of ancient components to be recovered from the wrecks of Sleeper drones. Initial scans of this salvaged Synthetic Aperture Ladar Receiver indicate that it includes technology that might be able to find a home in the sensor equipment of capsuleer ships. Engineers across the cluster have begun attempting to reverse engineer the Sleeper techniques used in this component, with Minmatar researchers expressing particular interest.

Since original oil can be harvested only from a world with a long biological history, synthetic oil has become frequently produced in laboratories all over known space.

The wide range of uses for synthetic synapses is largely due to the fact that they are able to serve double duty as electrical conduits and as replacements or additions to biological nervous systems. This allows them to be used in computers, cybernetics, and artificial intelligence equipment.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Power Conduit runs through ships delivering energy like arteries deliver blood through a body. Large ships can have hundreds of miles of conduit. This conduit is tangled and knotted as it seems to have gone through some sort of catastrophe.

A silvery metal, primarily used as a corrosion inhibitor and a superconductor.

An expert system used in the construction of missile launchers.

An unstable form of ore, mutanite is rendered useless by any attempt to refine it with the technologies currently available in New Eden. Despite this, it is highly prized by the cluster's major factions as its unique and evershifting molecular structures hold the promise of new insights into the Abyssal environments inside which they formed. The Tenebraet variant of mutanite forms in a Dark abyssal environment and has a surprisingly low frictional coefficient unless exposed to photonic radiation.

An advanced composite designed to manipulate electromagnetic waves just beyond the microwave band, terahertz metamaterials are found in the latest generation of processors and capacitor units in the Amarr Empire.

When bacteria are allowed to thrive in a water-based environment, they undergo generational transformations that can be monitored and documented, providing research data invaluable to numerous scientific fields.

These tiny nanomachines have been injected into the thermoelectric power core at the heart of the Sleeper drone. Inside each one is a small array of chemicals and components, all of which play a role in producing the often violent chemical reactions that provide power to the drones. Only the most advanced Sleeper drones are known to have had their power cores enhanced in this way. Even though they all share the same fundamental role, thousands of minor variations in the machines that have emerged after millennia of use, as they adapted to the minute changes in chemical composition and electrical flux. How exactly they came to do this remains a mystery, but it is clear that the current product is the result of countless iterations. Although salvaged easily enough, they have been built from the ground up to be integrated into other Sleeper technology. Trying to enhance any engineering systems outside of the Sleeper's own thermoelectric power cores with the current level of technology would represent an impossible reverse-engineering task.

Thermosetting polymer is used in many applications as its properties allow it to be used in many shape forms or incorporated with other materials. A large number of reinforced materials use this type of polymer.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings. Available in 0.0 security status solar systems or lower.

The control unit for a starships thrusters.

A soft, rare, silvery-gray metal. Used in the creation of lasers, in addition to possessing a range of radiation-related production applications.

Despite its unremarkable gray appearance, Thulium Hafnite has proven to be extremely effective as shielding against electromagnetic radiation and free neutrons. It is a valuable component in the production of processor and capacitor technologies, especially in the Gallente Federation.

A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

An extremely fatigue-resistant yet light-weight metallic element, useful as a refractory metal and employable in a wide variety of potential scenarios. One of the primary building blocks of a whole host of materials.

Due to its immense strength and molecular malleability, Titanium Carbide has become the darling of the Caldari technological industry, seeing use in everything from reactor units to weapons systems.

Titanium Chromide is in high demand among technicians and manufacturers for its unique combination of strength, light weight and catalytic potential.

Derived from heavy metals, toxic metals are those that have no biological function and are in fact poisonous to most living creatures.

The Transcranial Microcontroller was originally developed by the School of Applied Knowledge with funds from several humanitarian organizations to help catatonics regain consciousness and resume their lives, though in a limited capacity. The microcontroller, which can be used both in humans and machines, proved to be a great success and the Ishukone corporation stepped in and bought the rights to the chip. Since then, further studies by Ishukone technicians have revealed several additional ways the microcontroller can be used, such as control mechanisms in robots for industrial usage. Experts claim that the microchip does not offer higher efficiency in the robots compared to already established methods due to its reliance of a biomechanical host system.

This electronic device generates and amplifies a carrier wave, modulates it with a meaningful signal derived from speech or other sources, and radiates the resulting signal from an antenna or some other form of transducer.

Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot. Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon. Available primarily in null security status and wormhole systems.

A perfectly functioning cannon trigger unit.

A closed loop electrical network with redundant autonomous switchgear. This unit has all of its breakers tripped but isn't beyond repair.

The main building block in space structures. A very hard, yet bendable metal. Cannot be used in human habitats due to its instability at atmospheric temperatures. Very common throughout the central regions of known universe. May be obtained by reprocessing the following ores and their variations available in high security status star systems: Veldspar, Scordite, Plagioclase It is also present in huge amounts in rare ores like Spodumain, Bezdnacine, Rakovene and Talassonite.

One of the hardest metals in existence. Able to form extremely durable alloys with various other elements, and very useful in a number of deep-space scenarios.

Tungsten Carbide is a much-used composite, greatly favored by the Amarrians for construction of their advanced technologies.

Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

Highly isolated coils with minimal friction, used in high-voltage electrical devices. The Ukomi Superconductors are a new brand developed and manufactured by the Kaalakiota corporation. Today every Caldari station has a stockpile of these highly rated Superconductors, which are in quite high demand in most foreign black markets due to their superior technology.

Ultra high-power loads will typically burn out even the most advanced superconducting cables, calling for a radical solution in cases where high bursts of power are required at relatively high frequencies. Ultraconducting ablative nanocable is able to repeatedly transmit high-power loads by actively exchanging the material of the cable with an integrated pool of nanomaterial between pulses.

Ultradian-Cycling Neurolink Stabilizers are highly advanced pharmaceuticals developed for use by the Imperial Navy in conjunction with military capsuleer neurolink technology. Each of the empire militaries keys their neurolink stabilization to specific autonomic biosystems. These provide baselines, cycles and triggers that allow implants and capsule systems to maintain stable synchronization of capsuleer neurolinks with ship systems.

This dense and brittle material is formed from Crystalline Isogen-10 and has a molecular arrangement similar to the Triglavian product of that material known as Lattice Locked Dekaisogen. Unlike the Lattice Locked variant the molecules in Unaligned Dekaisogen have drifted and its structure has become unstable. Whether this is a byproduct of the lattice locking process, or a compromised version of the finished product is unclear. Either way, it provides an insight into the process making it valuable to those seeking to uncover the secrets of Triglavian tech.

A dark-golden hued alloy composed of cadmium and caesium. Often confused with tritanium due to its tint. An essential ingredient in various composites and condensates.

A polynuclear heterometallic compound created from cobalt and cadmium. Crystallite alloys are a fundamental building block in the creation of crystalline composites.

Quicksilver mixed with dysprosium forms the soft but extremely resilient dysporite, an amalgamatic alloy which plays a key role in most advanced sensor and reactor technologies.

An intensely durable and extremely versatile alloy, Fernite, when combined with certain other materials, is a crucial stepping stone in the creation of a whole host of advanced technologies.

Ferrofluids are superparamagnetic fluids containing tiny particles of magnetic solids suspended in liquid. The primary component in the creation of ferrogels.

When combined with other materials and alloys, fluxed condensates help contribute to a unique quantum state highly conducive to efficient reactor operation.

A chemical compound, formed through electrosporadic oxidization of chromium and platinum. Has a wide range of applications in the production of advanced technology and is highly sought-after by industrial manufacturers.

Hyperflurite is one of the most radioactive substances known to man. Composed of a mixture of radioactive metals and raw hydrocarbons, this luminescent goop provides catalysis for a variety of generative and reactive machine processes.

A silvery, shimmering liquid compound, Neo Mercurite is a crucial element in many forms of advanced sensor and processor technology.

An intensely resilient alloy composed of platinum and technetium. Highly sought-after in the machinery and armament industries.

A metallic radioactive compound, Promethium Mercurite emits a faint green glow visible to the naked eye. It is a crucial part of a new generation of processors and capacitor units being developed by the Amarr Empire.

A highly radioactive cadmium-promethium compound, used as a catalytic agent in the manufacturing of thrusters, reactor units and shield emitters, among other things.

An extremely strong compound, made from tungsten rolled in a sheath of platinum. A crucial component in the creation of carbides which have a wide field of utility in the manufacture of various equipment.

When chromium and caesium are combined with raw silicates in the proper proportions, Solerium is created. Since its initial discovery, Solerium's uniquely shifting dark-to-bright red hue has prompted poet and musician alike to create hymns in praise of its uniquely shifting deep red hue.

Despite its unremarkable gray appearance, Thulium Hafnite has proven to be extremely effective as shielding against electromagnetic radiation and free neutrons. It is a valuable component in the production of processor and capacitor technologies, especially in the Gallente Federation.

Titanium Chromide is in high demand among technicians and manufacturers for its unique combination of strength, light weight and catalytic potential.

A stable binary compound composed of vanadium and hafnium. Performs a variety of catalytic functions, and is an important intermediate for more complex construction processes.

Living creatures can be trained to defend themselves from harmful diseases by introducing a minute sample of pathological strains, tremendously improving their immune systems and allowing them to endure prolonged exposure to harmful contagions.

An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

A soft, white metal with a wide-ranging arsenal of applications both nuclear and structural. Also a versatile catalyst in compound form.

A stable binary compound composed of vanadium and hafnium. Performs a variety of catalytic functions, and is an important intermediate for more complex construction processes.

Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral. Available primarily in high security status star systems.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

The causative agent of an infectious disease, the viral agent is a parasite with a noncellular structure composed mainly of nucleic acid within a protein coat.

Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.

Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.

Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE. Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon. Available in all known space and wormhole systems.

Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral. Available primarly in null security status star systems.

When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. Hedbergite is sought after for its high concentration of Pyerite and Nocxium. Available primarily in low security status star systems.

Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother. With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen. Available primarily in low security status star systems.

The control unit for a starships shield systems.

Water is one of the basic conditional elements of human survival. Most worlds have this compound in relative short supply and hence must rely on starship freight.

Despite how ancient the technology is, there is still no method more cost-effective for cooling computer processing units than ordinary water, which can be heated and cooled rapidly via any number of proven methods. Most often, thermally conductive tubing makes its way through all of the vital components and over heat sinks, helping to regulate operating temperatures.

So advanced and energy-demanding are wetware mainframes that they require vehicle-scale power cores and the constant attention of maintenance personnel. When operating at peak performance levels, nothing in New Eden can match the raw computing power of these machines, from calculating warp coordinates to administrating the core functions of an entire space station.

When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower. Available in 1.0 security status solar systems or lower.

An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

Alloys and special materials used in the manufacture of modules based on Ancient technology.

This is the most common form of Ytirium ore with a standard relative density of Isogen mineral content. Ytirium is a rare ore that contains a useful concentration of the Isogen mineral in relatively dense deposits. Though found in remote clusters of asteroids, the ore is readily transportable and easily refined into the useful mineral it contains. A special "Deep Space Survey" partnership between Ducia Foundry, Eifyr and Co., Mordu's Legion, and Ytiri was forged by the four members of the Upwell Consortium in order to carry out prospecting expeditions at the edges of empire space, deep in nullsec, and even beyond to wormhole space. In YC124, these survey missions were able to identify a number of rare ore types, each containing an unusually pure deposit of a standard mineral. Ytirium was the Isogen-bearing ore discovered by this group and was named for the Ytiri corporation contribution to the surveying expeditions. Available primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.

An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .

Held within a field-reinforced vacuum bottle of Triglavian design, this exotic matter condensate seems intended for use with zero-point energy systems involved in generating or maintaining traversable space-time conduits. The ubiquity of this substance in Triglavian technology suggests it has many applications, some of which are complex and poorly understood. However, in relatively straightforward applications this condensate can be used as an element of high-energy weapon charges. The substance also has uses in the construction of advanced materials, providing the basis for high-energy reactions involved in the manufacturing of components designed to experience hyper-intense levels of radiation and warp-field manipulation.

A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.

Only found in huge geodes; rocks on the outside with crystal-like quartz on the inside. The rarest and most precious of these geodes are those that contain the dark green zydrine within. Very rare and very expensive. May be obtained by reprocessing Bistot ore and its variations which are available in null security status and wormhole systems. Significant amounts of Zydrine are also present in rare ores like Spodumain and Rakovene. The rare ore Eifyrium also contains significant quantities and is found primarily in nullsec and W-space systems containing A0 (Blue Small) stars, as well as surveyed locations on the borders of empire and nullsec space.