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Vol 200
Pages:
167-171
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RUS
Article

Comparative analysis of Uralian, Anabar and Brazilian diamonds by infrared spectrometry method

Authors:
E. A. Vasilev1
A. V. Kozlov2
Yu. V. Nefedov3
V. A. Petrovskii4
About authors
  • 1 — leading engineer National Mineral Resources University (Mining University)
  • 2 — Ph.D., Dr.Sci. professor National Mineral Resources University (Mining University)
  • 3 — post-graduate student National Mineral Resources University (Mining University)
  • 4 — Ph.D., Dr.Sci. professor Institute of Geologya of the Komi NTs UrO RAN
Date submitted:
2012-07-03
Date accepted:
2012-09-07
Date published:
2013-04-16

Abstract

Uralian, Anabar, and Brazilian diamond collections were studied by infrared spectrometry method. For reconstruction of thermal conditions of diamond formation were plotted Taylor Wayne diagrams with calculated isothermal curves. Diagrams of B2-defects distribution and H-centres were done. The conclusion about thermal formation conditions and possible belonging to the sea stream gravels were done.

Область исследования:
(Archived) Geology and metallogeny
Keywords:
diamond deposit Ural Brazil Anabar infrared spectrometry defects formation conditions
Go to volume 200

References

  1. Vasilyev E.A., Bogush I.N. Researcing of nitrogen aggregation in natural diamonds / //Materials of conf. «EURASTRENCOLD-2004». Yakutsk. 2004. P.215-223.
  2. Grahanov S.A. Formation features and patterns of distribution of alluvial diamonds north-eastern Siberian platform // Research paper...Dr. in geol. & min. sc. Yakutsk, 2007. 40 p.
  3. Milashev V.A. Morphotypes of crystals and problem of it’s original source in European part of Russia // Problems of forecasting, searching and studying of mineral deposits in XXI century. Voronezh, 2003. P.235-237.
  4. Afanas'ev V.P., Lobanov S.S., Pokhilenko N.P., Koptil V.I., Mityukhin S.I., Gerasimchuk A.V., Pomazanskii B.S., Gorev N.I. Polygenesis of diamonds in the Siberian platform // G eology and geophysics. 2011. V.52. N.3. P.335-353.
  5. Boyd S.R., Kiflavi I., Woods G.S. The relationship between infrared absorption and the A defect concentration in diamond // Phil. Mag. B. 1994. V.69. Р.1149-1153.
  6. Boyd S.R., Kiflavi I., Woods G.S. Infrared absorption by the B nitro-gen aggregate in diamond // Phil. Mag. B. 1995. V.72, Р.351- 361.
  7. Goss J.P., Coomer B.J., Jones R. and Fall C.J. Extended defects in diamond: The interstitial platelet // Phys. Rev. 2003. Ser. B. V.67. P. 165208: 1-15.
  8. Kaminski F.V. Superdeep diamonds from the Juina area, Mato Grossu //Contrib. Mineral. Petrol. 2001. V.140. P.734-753.
  9. Taylor W.R. Nitrogen-defect aggregation characteristics of some Australian diamonds: time-temperature constraints on the source regions of pipe and alluvial diamonds // Am. Mineral. 1990. V.75. P.1290-1310.
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