Rusak, A. A.; Shchekina, T. I.; Zinovieva, N. G. (2025) Formation of Cryolite in the Granites of the Katugin Deposit: Constraints from Experimental Data on the Fluorine–Lithium-Bearing Granite System. Petrology, 33 (5). doi:10.1134/s0869591125700158

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	Zinov’eva, N.G., Shchekina, T.I., Rusak, A.A., et al., Experience of application of several types of analysis at study of silicate and fluoride phases in the rare-earth-bearing Si–Al–Na–K–Li–F–O–H system, Tr. Vserossiiskogo ezhegodnogo seminara po eksperimental’noi mineralogii, petrologii i geokhimii (Proc. All-Russian Annual Seminar on Experimental Mineralogy, Petrology, and Geochemistry), Moscow: GEOKhI RAN, 2022, pp. 400–405.

See Also

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	Rusak, A. A., Shchekina, T. I., Zinovieva, N. G., Bychkov, A. Y., Lukanin, O. A. (2024) Cryolite as a Reference Mineral of Rare Metal Mineralization: An Experimental Study. Geochemistry International, 62 (7). doi:10.1134/s0016702924700332
	Rusak, A. A., Shchekina, T. I., Zinovieva, N. G., Bychkov, A. Y., Lukanin, O. A. (2024) Erratum to: Cryolite as a Reference Mineral of Rare Metal Mineralization: An Experimental Study. Geochemistry International, 62 (10). doi:10.1134/s0016702924190030
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	Shchekina, T. I., Rusak, A. A., Alferyeva, Ya. O., Gramenitskiy, Ye. N., Khvostikov, V. A., Kotelnikov, A. R., Bychkov, A. Yu., Zinovieva, N. G. (2022) Behavior of lithium in the liquidus part of a high-fluorine granite system at pressures from 10 to 50 MPa. Moscow University Bulletin. Series 4. Geology, 1 (3) 76-88 doi:10.33623/0579-9406-2021-3-76-88
	Shchekina, T. I., Rusak, A. A., Alferyeva, Ya. O., Gramenitskiy, E. N., Kotelnikov, A. R., Zinovieva, N. G., Bychkov, A. Yu., Bychkova, Ya. V., Khvostikov, V. A. (2020) REE, Y, Sc, and Li Partition between Aluminosilicate and Aluminofluoride Melts, Depending on Pressure and Water Content in the Model Granite System. Geochemistry International, 58 (4) 391-407 doi:10.1134/s0016702920040102
	Alferyeva, Ya. O., Gramenitskii, E. N., Shchekina, T. I. (2011) Experimental study of phase relations in a lithium-bearing fluorine-rich haplogranite and nepheline syenite system. Geochemistry International, 49 (7) 676-690 doi:10.1134/s0016702911070020
	Devyatova, V. N., Gramenitskii, E. N., Shchekina, T. I. (2007) Phase relations in fluorine-bearing granite and nepheline syenite systems at 800°C and 1 kbar. Petrology, 15 (1) 19-34 doi:10.1134/s086959110701002x
	Shchekina, T.I., Gramenitskiy, E. N. (2003) Geochemistry of scandium in fluorine-bearing granite and nepheline syenite magmas: evidence from experimental data. NGF Abstracts and Proceedings. Scandium 2003: An International symposium on the mineralogy and geochemistry of scandium, 2003 (2) 51-52
	Stupak, D. F., Prokof’ev, V. Yu., Zaraiskii, G. P. (2008) Formation conditions of the ore-bearing lithium-fluoride granites of the Shumilov tungsten deposit, central Transbaikalia. Petrology, 16 (3) 312-317 doi:10.1134/s0869591108030065
	Shchekina, T. I., Gramenitskiy, E. N., Alferyeva, Ya. O. (2013) Leucocratic magmatic melts with the maximum fluorine concentrations: Experiment and relations in nature. Petrology, 21 (5) 454-470 doi:10.1134/s0869591113040061
	Gramenitskiy, E. N., & Shchekina, T. I. (2003) The experimental investigation of scandium behavior in fluorine-bearing melts. http://www.pcmedic.web.ru/conf/khitariada/1-2003/informbul-1_2003/magm-25e.pdf