Инд. авторы: | Mikhailenko D.S, Shchepetova O.V., Musiyachenko K.A., Korsakov A.V., Ohfuji H., Pekov I.V. |
Заглавие: | New Data on Diamond-Graphite Relationships in the Gneisses of the Kokchetav Massif (Northern Kazakhstan) |
Библ. ссылка: | Mikhailenko D.S, Shchepetova O.V., Musiyachenko K.A., Korsakov A.V., Ohfuji H., Pekov I.V. New Data on Diamond-Graphite Relationships in the Gneisses of the Kokchetav Massif (Northern Kazakhstan) // Doklady Earth Sciences. - 2018. - Vol.480. - Iss. 2. - P.814-817. - ISSN 1028-334X. - EISSN 1531-8354. |
Внешние системы: | DOI: 10.1134/S1028334X18060272; РИНЦ: 35769384; SCOPUS: 2-s2.0-85050160897; WoS: 000438829900026; |
Реферат: | eng: The results of studying an aggregate of graphite-and-diamond crystal in tourmaline 5 mu m of the Kokchetav massif by the method of transmission electron microscopy are presented. The detail studies of the interface between the crystals of graphite and diamond have revealed the absence of disordered graphite that is detail partially graphitized diamond. Intense deformation changes in the graphite crystal occurred after it was captured by tourmaline at the regression stage, which led to considerable kinking of the graphite crystal along the a-axis. Thus, the coexistence of graphite and diamond crystals cannot be unambiguously interpreted as a product of partial diamond graphitization. Graphite could have crystallized syngenetic with a diamond crystal or at the retrograde stage in the graphite stability field. |
Ключевые слова: | XENOLITH; PRESSURE; METAMORPHIC ROCKS; |
Издано: | 2018 |
Физ. характеристика: | с.814-817 |
Цитирование: | 1. H. P. Schertl and N. V. Sobolev, J. Asian Earth Sci. 63, 5–38 (2013) 2. A. P. Bobrievich, G. I. Smirnov, and V. S. Sobolev, Dokl. Akad. Nauk SSSR 126 (3), 637–640 (1959) 3. D. N. Robinson, in The Mantle Sample: Inclusion in Kimberlites and Other Volcanics (Am. Geophys. Union, Washington, DC, 1979), pp. 50–58 4. K. De Corte, A. Korsakov, W. R. Taylor, P. Cartigny, M. Ader, P. De Paepe, Isl. Arc 9 (3), 428–438 (2000) 5. A. V. Korsakov, E. I. Zhimulev, D. S. Mikhailenko, S. P. Demin, O. A. Kozmenko, Lithos 236, 16–26 (2015) 6. D. V. Nechaev and A. F. Khokhryakov, Geol. Geofiz. 54 (4), 523–532 (2013) 7. B. Willems, K. De Corte, and G. Van Tendeloo, Phys. Status Solidi A 201 (11), 2486–2491 (2004) 8. Y. N. Palyanov and A. G. Sokol, Lithos 112, 690–700 (2009) 9. A. V. Korsakov, M. Perraki, D. A. Zedgenizov, L. Bindi, P. Vandenabeele, A. Suzuki, and H. Kagi, J. Petrol. 51 (3), 763–783(2010) 10. D. S. Mikhailenko, A. V. Korsakov, P. S. Zelenovskiy, and A. V. Golovin, Am. Mineral. 101 (10), 2155–2167 (2016) 11. N. V. Sobolev and V. S. Shatsky, Nature 343 (6260), 742–746 (1990) 12. V. S. Shatsky, N. V. Sobolev, and M. A. Vavilov, Ultrahigh Pressure Metamorphism (Cambridge Univ. Press, Cambridge, 1995), pp. 427–455 13. M. L. Frezzotti, J. M. Huizenga, R. Compagnoni, J. Selverstone, Geochim. Cosmochim. Acta 143, 68–86 (2014) 14. J. Xu, Y. Kuang, B. Zhang, Y. Liu, D. Fan, X. Li, and H. Xie, Phys. Chem. Miner. 43 (5), 315–326 (2016) 15. S. Lowitzer, B. Winkler, and M. Tucker, Phys. Rev. B 73 (21), 214115 (2006) |