All Asteroid

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 useful source of tungsten often found in asteroid fields that have been commercially developed by the Amarr Empire. The necessary processes to efficiently extract useful quantities of high quality tungsten from this ore have been perfected by the Amarr, and the Imperial War Reserves are always interested in exploiting newly surveyed fields where raspite is in abundance. Adamantine raspite asteroids have a very high density of the tungsten-bearing crystals compared to normal deposits found on raspite-bearing asteroids.

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 violet hues of this glassy fluorite crystal formation appear to be particularly emboldened by the presence of trace amounts of Chromodynamic Tricarboxyls compared to other specimens of this stratum. Though the concentration of these compounds is markedly less than that found in previous observations of similar examples, enterprising individuals may be able to exploit this limited resource.

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.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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 ore has been compressed into a much more dense version.

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.

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.

Despite its resemblance to common Pyroxeres, Augumene ore in its raw form is both rare and highly toxic to humans. Thus, while it is also a source of many of the minerals found in Pyroxeres ore, Augumene is generally considered virtually worthless due to the dangers posed by its handling.

Interstellar ices are formed by the accretion of gas molecules onto silicate dust particles. Azure ice forms under the same circumstances as "blue ice," but due to its slightly different chemical composition, it contains substantially fewer oxygen isotopes by volume than its blue cousin, rendering it a "lesser" 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. Available primarily in high security status star systems.

A variant of the common ore Veldspar, Banidine is found in far lesser abundance - which causes no problems for miners since the latter ore is virtually worthless, being riddled with impurities.

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.

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.

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 ore is of interest only to civilian and rookie pilot mining operations.

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 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 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 .

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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 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.

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.

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.

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.

Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many stellar ice fields, but "crystalline icicles" have a very low isotope count compared to other minable ices, making it relatively worthless. It's simply "space ice."

The unstable chemical flux of minerals designated as Chromodynamic Tricarboxyls can be obtained by reprocessing the rare ore Cthonic Attar. This is obtained from unique Cthonic Attar asteroids altered by the strange gravitational and electromagnetic effects of certain deadspace pockets lying in the intermediate zones between 'shallow', stable deadspace and the truly twisted depths of Abyssal Deadspace itself. 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.

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.

Kangite is rare in the extreme on planets but can be found in asteroids in sufficient quantities to commercially exploit it. As the mineral bears the highly useful scandium rare earth element, used in the manufacture of advanced materials by the Minmatar, the Republic has an obvious interest in exploiting it. Republic Fleet Ordnance operations rapidly arrive to organize the mining of any asteroid fields in their territory where kangite is located. Cubic kangite asteroids are loaded with large numbers of kangite crystals compared to the average kangite-bearing asteroids and are highly sought-after by Minmatar miners.

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.

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 dense variant of Moissanite ore is especially prized by Gallente engineers for use in large-scale construction projects. Recent advances in system-wide ore scanning technology has enabled the federation to detect hidden asteroid clusters containing this ore. The Gallente Federation has requested capsuleer assistance in helping them mine Dense Moissanite deposits within the Serthoulde constellation and depositing the ore in the Federation Ore Refinery structure within the Federation Gate Construction Site in the Athounon system.

This dense variant of Polycrase ore is especially prized by Caldari engineers for use in large-scale construction projects. Recent advances in system-wide ore scanning technology has enabled the state to detect hidden asteroid clusters containing this ore. The Caldari State has requested capsuleer assistance in helping them mine Dense Polycrase deposits within the Serthoulde constellation and depositing the ore in the State Ore Refinery structure within the State Gate Construction Site in the Athounon 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. Available primarily in high security status star systems.

Moissanite serves as an excellent alternate source of some of the key raw materials used to manufacture crystalline carbonide, the favored advanced material of Gallente shipbuilders. The Federation has a keen interest in exploiting moissanite deposits in asteroid fields and the Federal Strategic Materiel corporation will swiftly arrive with mining operations when deposits are located. Diamond moissanite asteroids are rich in this crystalline resource as well as containing diamond in some quantities, adding to the allure for the Gallente military's industrial support operations.

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.

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.

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.

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.

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.

Metaliminal volatile ice storms are filled with fields of ice and frozen material that may hold immense riches. All manner of novel and unique resources have been found to be trapped in the volatile ices of such fields, including items apparently lost by other travelers in space. Faded volatile ice ores are those from which the most valuable and useful materials have been extracted, or have dissipated into space. Even so, there are still riches to be found in these frozen fragments of material, and perhaps peculiar salvage items can be discovered.

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.

Arkonor is one of the rarest and most sought-after ore in the known world. Flawed Arkonor on the other hand is very rarely sought after. In fact more than a few inexperienced miners have turned red-faced when discovering their 'valuable' cargo was in fact flawed and worth only a handful of ISK ...

Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. Flawed Gneiss however has the same properties as fools gold, in the sense that it looks like the original but is worth almost nothing in comparison.

Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium. Flawed Jaspet, unfortunately, is rather harder to sell, as it is practically devoid of usable minerals and is good only for duping the unwary.

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.

Crokite is a very heavy ore that is always in high demand because it has the largest ratio of nocxium for any ore in the universe. Fools Crokite on the other hand is infamous for making inexperienced miners look like fools. It closely resembles the real Crokite, while having very little usable mineral content.

Metaliminal volatile ice storms are filled with fields of ice and frozen material that may hold immense riches. All manner of novel and unique resources have been found to be trapped in the volatile ices of such fields, including items apparently lost by other travelers in space Fresh volatile ice ores are those with the most valuable icebound resources in plentiful supply and ready to be extracted. A huge bounty of rich materials are to be found in these frozen fragments, and perhaps rare salvage items also await discovery.

Metaliminal volatile ice storms are filled with fields of ice and frozen material that may hold immense riches. All manner of novel and unique resources have been found to be trapped in the volatile ices of such fields, including items apparently lost by other travelers in space Friable volatile ice ores are those where the most valuable materials have been extracted, with the ice itself beginning to crumble in the glare of stellar radiation. Quick workers will still find plenty of valuable material in these frozen fragments, perhaps including unusual salvage items.

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.

Geodite ore used to be common, but was mined heavily in the early years of interstellar industry, before the discovery of Crokite. The quality of nocxium taken from Geodite is very poor by today's refining standards, making the ore nearly worthless.

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.

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.

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.

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.

Polycrase is a good source of rare earth minerals, including Titanium, particularly for those who have developed the necessary techniques to break down this radioactive ore. The Caldari State has led the way in searching for sources of titanium-bearing minerals as it uses tremendous quantities of the material in its ships. The State Military Stockpile will eagerly exploit new finds of polycrase in asteroid fields. Granitic polycrase asteroids have excellent quantities of large polycrase crystals compared to the normal deposits found on polycrase-bearing asteroids.

Green Arisite is a close cousin to Gneiss, although it is much less commonly found in known space. It is not at all valuable to miners or refiners, however, since its byproducts tend to foul up refining equipment, thus requiring exorbitant maintenance costs.

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.

The unstable chemical flux of minerals designated as Chromodynamic Tricarboxyls can be obtained by reprocessing the rare ore Cthonic Attar. This is obtained from unique Cthonic Attar asteroids altered by the strange gravitational and electromagnetic effects of certain deadspace pockets lying in the intermediate zones between 'shallow', stable deadspace and the truly twisted depths of Abyssal Deadspace itself. 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.

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

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.

Spectrographic analyses of ice asteroids of this type have indicated the presence of trace condensates of chromodynamic tricarboxyls trapped in the frozen material. Processing this ice material at an appropriate facility should yield usable quantities of chromodynamic tricarboxyls.

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.

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.

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.

Kangite is rare in the extreme on planets but can be found in asteroids in sufficient quantities to commercially exploit it. As the mineral bears the highly useful scandium rare earth element, used in the manufacture of advanced materials by the Minmatar, the Republic has an obvious interest in exploiting it. Republic Fleet Ordnance operations rapidly arrive to organize the mining of any asteroid fields in their territory where kangite is located.

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.

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.

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.

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.

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.

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.

Lyavite is a relatively rare ore quite similar in some respects to Kernite. However, due to the circumstances under which this ore is formed, it is highly unstable when refined; this quality renders it worthless to all but the most desperate of miners.

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.

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.

The rare mineral Mercium is thought to be closely related to Omber, varying slightly in chemical composition; in fact, these ores were classified as separate types only recently. However, current refining technologies have been found to do irreparable damage to Mercium ore, rendering it unusable for all practical purposes.

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.

Moissanite serves as an excellent alternate source of some of the key raw materials used to manufacture crystalline carbonide, the favored advanced material of Gallente shipbuilders. The Federation has a keen interest in exploiting moissanite deposits in asteroid fields and the Federal Strategic Materiel corporation will swiftly arrive with mining operations when deposits are located.

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.

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

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.

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.

Very similar in composition to Dark Ochre, Oeryl has come into the spotlight only since advanced refining techniques have made Dark Ochre highly sought after for its high isogen content. While refining processes for Oeryl remain utterly ineffective, making this ore worthless to most manufacturers, scientists believe it may become equally as valuable as its Ochre counterpart given a few years of research.

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.

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.

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 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.

Pithix (sometimes spelled Pythix), sister ore to Jaspet, also contains a myriad of mineral types, but is found only in asteroids of a certain age; this oddity, combined with the fact that current Pithix refining methods are quite inefficient, makes the ore little more than a minor curiosity to the scientific community as a whole.

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.

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.

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.

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.

Polycrase is a good source of rare earth minerals, including Titanium, particularly for those who have developed the necessary techniques to break down this radioactive ore. The Caldari State has led the way in searching for sources of titanium-bearing minerals as it uses tremendous quantities of the material in its ships. The State Military Stockpile will eagerly exploit new finds of polycrase in asteroid fields.

One of the rarest and most valuable ores in the known universe, Arkonor, has a less well known cousin called Polygypsum. While the two are very similar in chemical composition, the latter is quite unstable, having a tendency to ignite when handled roughly. While posing little danger to a spacecraft, which is built to withstand tremendous heat, this property makes the ore too dangerous under any other circumstances - such as in the business of refining.

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.

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.

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.

A useful source of tungsten often found in asteroid fields that have been commercially developed by the Amarr Empire. The necessary processes to efficiently extract useful quantities of high quality tungsten from this ore have been perfected by the Amarr, and the Imperial War Reserves are always interested in exploiting newly surveyed fields where raspite is in abundance.

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.

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.

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 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.

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.

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.

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.

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.

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.

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.

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.

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 .

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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 .

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.

Zuthrine is one of the most dense ores in known space, a close relative of Mercoxit, it also contains enormous amounts of Morphite. It is found only in the very core of asteriods it requires specialized deep core mining techniques to extract.