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Y. Zhang, Yuheng Xu, Mu Li, Yuan Zhao (2001)
Growth and properties of Zn doped lithium niobate crystalJournal of Crystal Growth, 233
M. Palatnikov, I. Birukova, S. Masloboeva, O. Makarova, D. Manukovskaya, N. Sidorov (2014)
The search of homogeneity of LiNbO3 crystals grown of charge with different genesisJournal of Crystal Growth, 386
M. Palatnikov, O. Shcherbina, N. Sidorov, K. Bormanis (2010)
Micro- and nanostructures in lithium niobate single crystals doped with lanthanidesCrystallography Reports, 55
M. Palatnikov, I. Biryukova, S. Masloboeva, O. Makarova, O. Kravchenko, A. Yanichev, N. Sidorov (2013)
Structure and optical homogeneity of LiNbO3〈Mg〉 crystals grown from different chargesInorganic Materials, 49
V. Voskresenskii, O. Starodub, N. Sidorov, M. Palatnikov (2017)
Investigation of the cluster formation in lithium niobate crystals by computer modeling methodCrystallography Reports, 62
T. Chernaya, T. Volk, I. Verin, V. Simonov (2008)
Threshold concentrations in zinc-doped lithium niobate crystals and their structural conditionalityCrystallography Reports, 53
G. Mitra (2014)
Theoretical Model of Diffraction Line Profiles as Combinations of Gaussian and Cauchy DistributionsJournal of Crystallization Process and Technology, 4
F. Abdi, M. Aillerie, M. Fontana, P. Bourson, T. Volk, B. Maximov, S. Sulyanov, N. Rubinina, M. Wöhlecke (1999)
Influence of Zn doping on electrooptical properties and structure parameters of lithium niobate crystalsApplied Physics B, 68
Lijuan Zhao, Xin Wang, B. Wang, Weijia Wen, Tong-Yi Zhang (2004)
ZnO-doped LiNbO3 single crystals studied by X-ray and density measurementsApplied Physics B, 78
U. Schlarb, M. Wöhlecke, B. Gather, A. Reichert, K. Betzler, T. Volk, N. Rubinina (1995)
Refractive indices of Zn-doped lithium niobateOptical Materials, 4
A comparative study of the optical and structural homogeneity of a LiNbO3 crystal with a congruent composition and LiNbO3 : ZnО ([ZnО] ≈ 5.4–6.4 mol % in melt) crystals grown from charges of different origin has been performed. It is shown that the LiNbO3 : ZnО crystals obtained by direct solid-phase doping have a higher general structural and optical homogeneity, provided that the crystal composition is sufficiently homogeneous along the growth axis. Homogeneously doped LiNbO3 : ZnО crystals, characterized by a high general structural homogeneity on the scale level of 10–500 µm, have poorer optical and structural homogeneity on the micron and submicron levels as compared with directly doped LiNbO3 : ZnО crystals.
Crystallography Reports – Springer Journals
Published: Jan 25, 2020
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