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Materials science and technology. Dielectrics | |
ArticleName | Study of Photorefractive Properties of LiNbO3 : Gd3+ Crystals by Photorefractive and Combinational Light Scattering |
ArticleAuthor | N. V. Sidorov, A. V. Syuy, E. A. Antonycheva, A. Y. Gaponov, D. V. Evstratova, M. N. Palatnikov |
ArticleAuthorData | N. V. Sidorov, e-mail: sidorov@chemy.kolasc.net.ru, D. V. Evstratova, (Tananaev Institute of Chemistry and Technology of Rare Elements and Minerals); A. V. Syuy, e-mail: alsyuy271@gmail.com, E. A. Antonycheva, e-mail: aea2008@mail.ru, A. Y. Gaponov, M. N. Palatnikov, e-mail: palat_mn@chemy.kolasc.net.ru, (Far Eastern State Transport University) |
Abstract | Time dependence of photorefractive light scattering (PLS) and combinational light scattering (CS) spectra for series of congruent composition lithium niobate single crystals (LiNbO3) doped with «nonphotorefractive» cations Gd3+ (СGd = 0,002.0,44 wt. %.) have been. It is established that for the test doping impurity concentration range PLS is most expressed at Gd3+ concentration of 0,003 wt. %. Thus growth of Gd3+ concentration significantly changes the intensity of those lines in the combinational light scattering spectrum that are forbidden by the selection rules in the scattering geometries studied in the absence of photorefraction. And, with a growth in the Gd3+ concentration, the intensity of the «forbidden» lines first decreases (at the concentration Gd3+ = 0,002.0,003 wt. %), and then significantly increases. The reduction in the intensity of the «forbidden» lines testifies to downturn of photorefraction. The decrease of the photorefractive effect can be connected with an increase in the degree of ordering in the structural units of the cation lattice along a polar axis and the related reduction in the quantities of defects with localized electrons that control photorefraction intensity. |
keywords | Lithium niobate, photorefractive effect, photorefractive light scattering, spekl-structure, defects, ordering of structural units, combinational light scattering. |
References | 1. Maksimenko, V. A. Fotoinducirovannye processy v kristallah niobata litija / V. A. Maksimenko, A. V. Sjuj, Ju. M. Karpec. - M. : Fizmatlit, 2008. - 96 p. 2. Sidorov, N. V. Niobat litija: defekty, fotorefrakcija, kolebatel'nyj spektr, poljaritony / N. V. Sidorov, T. R. Volk, B. N. Mavrin, V. T. Kalinnikov - M. : Nauka, 2003. - 256 p. 3. Volk, T. Lithium niobate. Defects, photorefraction and ferroelectric switching / T. Volk, M. Wohlecke - Berlin : Springer, 2008. - 250 p. 4. Sturman, B. I. Fotogal'vanicheskij jeffekt v sredah bez centra simmetrii i rodstvennye javlenija / B. I. Sturman, V. M. Fridkin - M. : Nauka, 1992. - 208 p. 5. Blistanov, A. A. Rekombinacionnye processy v kristallah LiNbO3 / A. A. Blistanov, V. M. Ljubchenko, A. N. Gorjunova // Kristallografija. - 1998. - Vol. 43, N 1. - P. 86—91. 6. Sidorov, N. V. Navedennaja lazernym izlucheniem podreshetka mikro- i nanostruktur v fotorefraktivnom monokristalle niobata litija / N. V. Sidorov, A. A. Janichev, P. G. Chufyrev, B. N. Mavrin, M. N. Palatnikov, V. T. Kalinnikov // Dokl. RAN. - 2009. - Vol. 428, N 4. - P. 492—495. 7. Goulkov, M. Photorefractive parameters of lithium niobate crystals from photoinduced light scattering / M. Goulkov, M. Imlau, Th. Woleke // Phys. Rev. B. - 2008. - V. 77. - P. 235110—235115. 8. Kratzig, E. Photorefractive materials and their applications / E. Kratzig, O. Schirmer // Topic in Appl. Phys. - Berlin; Heidelberg : Springer Verlag, 1989. - V. 62. - P. 131. 9. Gunter, P. Photorefractive materials and their applications / P. Gunter, J. P. Huignard // Topics in Appl. Phys. - Berlin; Heidelberg : Springer, 1988. - V. 61. - P. 67. 10. Petrov, M. P. Photorefractive crystals in coherent optical systems / M. P. Petrov, S. I. Stepanov, A. V. Khomenko - Berlin : Springer, 1991. - P. 147. 11. Kuz'minov, Ju. S. Jelektroopticheskij i nelinejno-opticheskij kristall niobata litija / Ju. S. Kuz'minov - M. : Nauka, 1987. - 264 p. 12. Gurzadjan, G. G. Nelinejno-opticheskie kristally. Svojstva i primenenie v kvantovoj jelektronike / G. G. Gurzadjan, V. G. Dmitriev, D. N. Nikogosjan - M. : Radio i svjaz', 1991. - 160 p. 13. Birjukova, I. V. Vysokotemperaturnyj sintez i modifikacija svojstv segnetojelektricheskih monokristallov i shihty niobata i tantalata litija / I. V. Birjukova // Diss. … kand. Teh. nauk. - Apatity: IHTRJeMS KNC RAN, 2005. - 132 p. 14. Palatnikov, M. N. Uporjadochenie struktury i opticheskie harakteristiki legirovannyh monokristallov niobata litija / M. N. Palatnikov, N. V. Sidorov, I. V. Birjukova, P. G. Chufyrev, V. T. Kalinnikov // Perspektivnye materialy. - 2003. - N 4. - P. 48—54. |
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