Abstract
The temperature gradient for the sapphire crystals growth by the horizontal directed crystallization method was defined by mathematical simulation with the help of finite volume method in three-dimensional coordinates on the unstructured grid. The estimation of gas bubbles sizes near the liquid crystallization front was determined taking into account temperature gradients during sapphire growth. The results of simulation of sapphire crystals growth allows one to understand the physical nature of this process and to come nearer to solution of the main problem of processing such crystals with the reduced defect level.
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References
E.R. Dobrovinskaya, L.A. Lytvynov, V.V. Pishchik, Sapphire. Material Manufacturing, Applications (Springer, New York, 2009)
A.G. Shtukenberg, Yu.O. Punin, Optical Anomalies in Crystals (Science, St. Petersburg, 2004). (in Russian)
V.L. Indenbom, J. Crystallogr. 9, 74 (1964)
V.L. Indenbom, Proc. of the USSR Academy of Sciences. Physical Series, 37, 2258 (1973)
A.I. Belaya, E.R. Dobrovinskaya, L.A. Lytvynov, V.V. Pishchik, J. Crystallogr. 26, 164 (1981)
A.I. Landay, Proc. Cryst. Growth 1, 74 (1957)
P.I. Antonov, S.I. Baholdin, L.L. Kuandykov, Yu.K. Lingart, J. Crystallogr. 49, 300 (2004)
T.S. Bessonova, A.L. Samsonov, L.A. Avvakumova, S.V. Bodyachevskiy, E.G. Shalfeev, J. Inorg. Mater. 26, 2531 (1990)
S.P. Malyukov, S.N. Nelina, V.I. Zaitsev, in Proceedings of the Nanotechnology, Nanomaterials and Nanodiagnostics, vol. 42 (2008) (in Russian)
V.N. Popov, YuS Tsivinskaya, A.E. Koch, J. Math. Model. 17, 77 (2005)
M.P. Marchenko, I.V. Fryazinov, J. Crystallogr. 50, 1114 (2005)
S.C. Hannanov, S.P. Nikanorov, S.I. Baholdin, J. Solids Phys. 45, 1020 (2003)
S.P. Malyukov, S.N. Nelina, in Proceedings of the Microelectronics and Informatics, vol. 190 (2007) (in Russian)
A.S. Dzyuba, I. Zu. J. Crystallogr. 30, 1177 (1985)
V.L. Indenbom, G.N. Tomilevsky, J. Crystallogr. 1, 593 (1957)
V.L. Indenbom, V.B. Osvensky, J. Cryst. Growth 13, 240 (1980)
S.P. Malyukov, S.N. Nelina, D.I. Cherednichenko, in Proceedings of the Solids Chemistry, vol. 105 (2009) (in Russian)
S.P. Malyukov, Y.V. Klunnikova, I.A. Painov, in Advanced Nano- and Piezoelectric Materials and Their Applications, vol. 89, ed. by I.A. Parinov (Nova Science Publishers, New York, 2014)
A.V. Budnikov, A.E. Vorobev, V.N. Kanishev et al. in Release of the Dissolved and Ion-introduced Gases at Fragile Destruction, Plastic Deformation and Heating Poly- and Monocrystals of Oxides of Aluminum, Magnesium, Zirconium, Aluminum-Yttrium Granate and Metals, vol. 63 ASRI of Monocrystals, Kharkov, (1990)
S.P. Malyukov, S.N. Nelina, V.A. Stefanovich, Physicotechnological Aspects of Sapphire Production (Lap Lambert Academic Publishing, Germany, 2012)
D.I. Cherednichenko, S.P. Malyukov, Y.V. Klunnikova, in Sapphire: Structure, Technology and Applications, ed. by I. Tartaglia, (Nova Science Publishers, New York, 2013)
S.P. Malyukov, Yu.V. Klunnikova, In: Advanced Materials—Studies and Applications, vol. 65, eds. by I.A. Parinov, S.-H. Chang, S. Theerakulpisut (Nova Science Publishers, New York, 2015)
Y.E. Geguzin, A.S. Dzyuba, N.V. Kononenko, J. Crystallogr. 26, 577 (1981)
Y.I. Frenkel, Kinetic Theory of Liquids (Science, Leningrad, 1975). (in Russian)
S.P. Malyukov, Y.V. Klunnikova, J. SFedU News. Tech. Sci. 4, 86 (2011). (in Russian)
S.P. Malyukov, Y.V. Klunnikova, Optimization of Sapphire Crystals Production for Electronic Technique (Lap Lambert Academic Publishing, Germany, 2012)
C.S. Bagdasarov, High-temperature Crystallization from Melt (Phismathlit, Moscow, 2004). (in Russian)
S.N. Ryadnov, PhD Thesis, Institute of the Crystallography of A.B. Shubnikova, Moscow (1987) (in Russian)
Acknowledgments
The results were obtained with use of the equipment of the Scientific and Educational Center “Laser Technologies”, Center of Collective Use and the Scientific and Educational Center “Nanotechnology” of the Institute of Nanotechnologies, Electronics and Electronic Equipment Engineering of Southern Federal University (Taganrog, Russia).
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Malyukov, S.P., Klunnikova, Y.V., Anikeev, M.V. (2016). Research of Gas Bubbles Interaction with Crystallization Front of Sapphire Melt. In: Parinov, I., Chang, SH., Topolov, V. (eds) Advanced Materials. Springer Proceedings in Physics, vol 175. Springer, Cham. https://doi.org/10.1007/978-3-319-26324-3_8
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