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[1] A. F. Witt, N. S. Gatos, “Determination of Microscopic Rates of Growth in Single Crystals”, J. Electrochem. Soc., 114:4 (1967), 413 | DOI
[2] A. Ra\..{u}ber, “Doping Modulation by Electric Currents in Lithium Niobate during Crystal Growth”, Mat. Res. Bull., 11 (1976), 497 | DOI
[3] M. Flemings, Protsessy zatverdevaniya, Mir, M., 1977
[4] A. L. Mamyan, O. G. Nalbandyan, “Raspredelenie primesi v kristallakh, vyraschennykh iz rasplavov s peremennoi skorostyyu kristallizatsii”, Kristallografiya, 28:6 (1983), 1225
[5] A. L. Mamyan, O. G. Nalbandyan, “Raspredelenie primesi v kristallakh, vyraschennykh iz rasplavov s peremennoi skorostyu kristallizatsii pri nalichii konvektsii”, Uch. zapiski EGU, 1984, no. 1, 62
[6] O. G. Nalbandyan, “Neodnorodnost vkhozhdeniya primesi v kristall pri peremennom koeffitsiente raspredeleniya”, Uch. zapiski EGU, 1985, no. 3, 64
[7] P. K. Kononov i dr., Teplo- i massoobmen pri poluchenii monokristallov, Metallurgiya, M., 1971, 150 pp.
[8] N. G. Nalbandyan, “Crystallization Rate Behaviour under Change of Czochralski Growth System Parameters”, Crystal Res. and Technol., 17 (1982), 815 | DOI