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New data on painite

Published online by Cambridge University Press:  05 July 2018

James E. Shigley
Affiliation:
Research Department, Gemological Institute of America, 1660 Stewart Street, Santa Monica, California 90404 Mineralogy Section, Natural History Museum of Los Angeles County, 900 Exposition Blvd., Los Angeles, California 90007 Department of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California 91125, USA

Abstract

A crystal of painite discovered in 1979 in a parcel of rough gem spinel from Burma represents the third known crystal of the species. This crystal is similar to the type crystal in most respects. Chemical analyses of both the new crystal and the type crystal confirmed the essential constituents reported by Moore and Araki (1976) and showed in addition the presence of trace amounts of Fe, Cr, V, Ti, Na, and Hf. Optical absorption spectra suggest that the red colour of painite is caused principally by Cr3+ and V3+.

Type
Mineralogy
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1986

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References

Anderson, B.W. (1974) J. Gemmol, 14, 97-113.CrossRefGoogle Scholar
Claringbull, G.F., Hey, M.H., and Payne, C.J. (1957) Mineral. Mag, 31, 420-5.Google Scholar
Hornytzkyj, S, and Clark, A.M. (1983) J. Gemmol, 18, 500-3.CrossRefGoogle Scholar
Moore, P.B., and Araki, T. (1976) Am. Mineral, 61, 88-94.Google Scholar
Povaretmykh, A.S., Clark, A.M., and Jones, G.C. (1978) Mineral. Mag, 42, 518-19.CrossRefGoogle Scholar
Schmetzer, K., and Ottemann, J. (1979) Neues Jahrb. Mineral. Abh, 136, 146-68.Google Scholar