Abstract
The increasing demands of modern science and industry on new materials make it imperative to study the synthesis and growth of crystals with valuable physical properties. Thus, whereas the needs of science and technology are usually focused on problems of growing crystals of high optical quality with the minimal number of defects, the goals of the jewelry industry require synthetic analogs of natural minerals traditionally used as gems that have properties and even defects similar to those of the natural specimens.
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References
I. N. Anikin, “Methods of synthesizing water-insoluble refractory compounds,” in: Growth of Crystals, Vol. 1 [in Russian], A. V. Shubnikov and N. N. Sheftal’ (eds.), Consultants Bureau, New York (1959), pp. 259–263.
V. A. Timofeeva, Growth of Crystals from Fluxes [in Russian], Nauka, Moscow (1978).
L. M. Viting, “Physico-chemical principles of the search for solvents for growing single crystals of ferrites from fluxes,” Doctoral Dissertation in Physical-Mathematical Sciences, Moscow (1980).
A. A. Tkachenko and G. V. Bukin, “Phase equilibria in systems containing Be,” in: Experimental Studies of Sulfide and Silicate Systems [in Russian], Inst. Geol. Geophys., Siberian Div., USSR Acad. Sci., Novosibirsk (1981), pp. 61–68.
G. V. Bukin and V. A. Maslov, “Study of the solubility and crystallization of bromellite in oxide fluxes,” in: Abstracts of Papers of the Third All-Union Symposium on Luminescence Detectors and X-ray Transformers [in Russian], Stavropol’ (1979), pp. 111–112.
V. A. Maslov, “Conditions for preparing bulk bromellite crystals,” in: Synthesis and Growth of Optical Crystals and Gems [in Russian], Inst. Geol. Geophys., Siberian Div., USSR Acad. Sci., Novosibirsk (1981), pp. 11–15.
P. N. Kuznetsov, G. V. Bukin, A. P. Surikova, and V. S. Lyubushkina, “Thermal dissociation of V2O5 in the presence of beryl, A12O3, BeO, and SiO2 in the range 700–1100°C,” in: Growth of Crystals of Beryllium Minerals and Their Properties [in Russian], Inst. Geol. Geophys., Siberian Div., USSR Acad. Sci., Novosibirsk (1980), pp. 59–62.
G. V. Bukin, A. A. Godovikov, V. A. Klyakhin, and V. S. Sobolev, “Growth of emerald single crystals,” in: Growth of Crystals, Vol. 13, E. I. Givargizov (ed.), Consultants Bureau, New York (1986), pp. 251–260.
P. E. Elkins and S. Austerman, “Single crystal beryllium oxide growth from calcium oxide-beryllium oxide melts,” U.S. Pat. No. 3,768,983.
A. E. Belyanko, G. V. Bukin, N. I. Lipatov, et al, “IR reflectance and Raman spectra of single crystals and ceramics for hollow waveguides in the middle IR,” preprint No. 177, Inst. Gen. Phys. Acad. Sci., USSR, Moscow (1983).
B. K. Sevast’yanov, Yu. L. Remigailo, V. P. Orekhova, et al., “Retuning the frequency of optical generation and spectroscopic characteristics of alexandrite,” Izv. Akad. Nauk SSSR, Ser. Fiz., 45, No. 8, 1429–1434 (1981).
A. A. Akhumyan, Zh. A. Arakelyan, G. V. Bukin, et al., “Quantum paramagnetic amplifier using synthetic emerald crystals,” Kvant. Elektron. (Moscow), 6, No. 1, 109–113 (1979).
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Bukin, G.V. (1993). Growth of Crystals of Beryllium Oxides and Silicates Using Fluxes. In: Givargizov, E.I., Grinberg, S.A. (eds) Growth of Crystals. Growth of Crystals, vol 19. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-2379-6_9
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DOI: https://doi.org/10.1007/978-1-4615-2379-6_9
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