Труды КНЦ (Технические науки вып. 5/2023(14))

3. Kuzminov Y. S. Electroopticheskuyu u nelineyunoopticheskiyu cristall niobata litiya [Electro-optical and nonlinear-optical lithium niobate crystal]. Moscow, Nauka, 1987, 262 p. 4. Iyi N., Kitamura K., Izumi F., Yamamoto J. K., Hayashi T., Asano H., Kimura S. Comparative study of defect structures in lithium niobate with different compositions. Journal Solid State Chemistry,1992, Vol. 101, рр. 340-352. 5. Donnerberg H. J., Tomlinson S. M., Catlow C. R. A., Schirmer A. F. Computer — simulation studies of intrinsic defects in LiNb 0 3 . Physical Review, 1989, Vol. 40, No. 17, рр. 11909-11916. 6. Lеngyel K., Peter A., Kovacs L., Corradi G., Palfavi L, Hebling J., Unferdorben M., Dravecz G., Hajdara I., Szaller Zs., Polgar K. Growth, defect structure, and THz application o f стехiometric lithium niobate. Applied Physics Reviews, 2015, Vol. 2, рр. 040601-040628. 7. Palatnikov M. N. Materialy elektronnoj tekhniki na osnove segnetoelektricheskih monokristallov i keramicheskih tverdyh rastvorov niobatov-tantalatov shchelochnyh metallov s mikro- i nanostrukturami. Diss. dokt. tekhnicheskih nauk. [Materials o f electronic equipment on the basis o f ferroelectric monocrystals and ceramic solid solutions of niobates-tantalates of alkali metals with micro- and nanostructures. Dr. Sci. (Engineering) diss.]. Apatity, 2011, 457 р. 8. Biryukova I. V., Gabrielyan V. T., Kalinnikov V. T., Makarov D. V., Palatnikov M. N. Fiziko-himicheskie usloviya kristallizacii stekhiometricheskogo niobata litiya v sisteme Li2O-K2O-Nb2O5 [Physical and chemical conditions of crystallization o f stoichiometric lithium niobate in the system Li2O-K2O-Nb2O5]. Sbornik tezisov IX nacional'noj konferencii po rostu kristallov (Moskva, 16-20 oktyabrya 2000 g.) [Proceedings of the IX National Conference on Crystal Growth, Moscow, 2000 October 16-20]. Moscow, Nauka, 2000, рр. 443. (In Russ.). 9. Polgar K., Peter A., Kovacs L., Corradi G., Szaller Zs. Growth o f stexiometric LiNbO3 crystals by top seeded solution growth method. Journal o f Crystal Growth, 1997, Vol. 177, No. 3-4, рр. 211-216. 10. Balasanyan R. N., Gabrielyan V. T., Ghazaryan L. M. Issledovanie kristallov niobata litiya, vyrashchennyh iz rasplava s primes'yu K2O [Study o f lithium niobate crystals grown from melt with K2O admixture]. Doklady nacional'noj akademii nauk Armenii. Ser. Fizika [Reports of National Academy o f Sciences of Armenia. Ser. Physics], 2000, Vol. 200, No. 2, рр. 134-140. (In Russ.). 11. Cabrera J. M., Olivares J., Carrascosa M., Rams J., Mtiller R. and Dieguez E. Hydrogen in lithium niobate. Advances in Physics, 1996, Vol. 45, No. 5, рр. 349-392. 12. Klauer S., Wohlecke M., Kapphan S. Influence of the H-D isotopic substitution on the protonic conductivity in LiNb 0 3 crystal. Physical Review B., 1992, Vol. 45, рр. 2786. Сведения об авторах Л. А. Бобрева — кандидат технических наук, научный сотрудник; Р. А. Титов — младший научный сотрудник. Information about the authors L. A. Bobreva — PhD (Engineering), Researcher; R. A. Titov — Junior Researcher. Статья поступила в редакцию 14.02.2023; одобрена после рецензирования 03.04.2023; принята к публикации 10.04.2023. The article was submitted 14.02.2023; approved after reviewing 03.04.2023; accepted for publication 10.04.2023. Труды Кольского научного центра РАН. Серия: Технические науки. 2023. Т. 14, № 5. С. 12-17. Transactions of the Kola Science Centre of RAS. Series: Engineering Sciences. 2023. Vol. 14, No. 5. P. 12-17. © Бобрева Л. А., Титов Р. А., 2023 17