Ericssonite

ericssonite
ericssonite
General
Category	Sorosilicates
Formula; (repeating unit)	BaMn2FeO[Si2O7](OH)
Crystal system	Monoclinic
Crystal class	Prismatic (2/m) ; H-M symbol: (2/m)
Space group	C2/m
Unit cell	a= 20.42, b= 7.03 ; c= 5.34 [Å], β= 95.5°; Z = 4
Identification
Color	deep reddish black
Crystal habit	Massive - Uniformly indistinguishable crystals forming large masses
Cleavage	perfect, perfect on (100) fair on (011)
Tenacity	very brittle
Mohs scale hardness	41⁄2
Luster	sub metallic
Streak	brown
Diaphaneity	Translucent to Opaque
Density	4.21
Refractive index	1.802-1.891
Pleochroism	x= pale greenish tan, y= red-brown, z= deep brown
Other characteristics	weakly magnetic

Ericssonite has a general formula of BaMn₂FeO[Si₂O₇](OH).^[1] It was discovered in 1967 and named after John Ericsson (July 31, 1803 – March 8, 1889), a well known Swedish American inventor, engineer and designer of the iron-clad ship USS Monitor.^[2] Ericssonite was discovered in the Jakobsberg Mine in Värmland, Sweden.^[3] Ericcsonite is monoclinic; this means it contains three unequal vectors, two of these vectors angles are perpendicular while the other is at an angle greater than 90°.^[4] When talking about its optical properties, ericssonite is anisotropic which means that the mineral has more than 1 index of refraction, causing light to vary in speed depending on which axis it is traveling through. The value of relief, the way the mineral appears to stand out when viewing it in plane polarized(PP) light under a microscope, in this mineral ranges anywhere from 1.802-1.891. This means that light travels anywhere from 1.802-1.891 times as fast in this mineral as it does in air, assuming the index of refraction of light in a vacuum is one. Since ericssonite is monoclinic, containing three unequal vectors, it is no surprise that it has three index of refraction, which is just the measurement of the speed of light in the mineral compared to the speed of light in a vacuum. Lastly when looking at ericssonite in PP light it is usually seen as a deep reddish-black. Ericssonite is only found in the Langban mine in Sweden, and usually in a metamorphic manganese ore body. Also it is always inter-grown with orthoericssonite, which is almost identical to ericssonite except you will find an extra silicon and oxygen in its chemical formula. Besides the fact that it is magnetic, the most unusual aspect of ericssonite is that it is just a very rare mineral, and it is only found in one place in the world, making it most useful for a collector of rare minerals.

References

^ http://www.mindat.org/min-1397.html
^ "Ericssonite Mineral Data".
^ "Jakobsberg Mine, Nordmark, Filipstad, Värmland, Sweden". Mindat.
^ Roberts, W.L., Campbell, T.J., and Rapp Jr, G.R. (1990) Encyclopedia of Minerals (2nd Edition). 294 p. Library of Congress Cataloging, Washington, D.C.

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[1] ttp://www.mindat.org/min-1397.html

[2] "Ericssonite Mineral Data".

[3] "Jakobsberg Mine, Nordmark, Filipstad, Värmland, Sweden". Mindat.

[4] Roberts, W.L., Campbell, T.J., and Rapp Jr, G.R. (1990) Encyclopedia of Minerals (2nd Edition). 294 p. Library of Congress Cataloging, Washington, D.C.

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