A. V. Makarevich, V. V. Shepelevich, S. M. Shandarov, “Effect of spatial orientation and thickness of Bi$_{12}$GeO$_{20}$ crystal on the gain of the subject light wave: theory and experiment”, PFMT, 2018, no. 4(37), 35

Problemy Fiziki, Matematiki i Tekhniki (Problems of Physics, Mathematics and Technics)

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Problemy Fiziki, Matematiki i Tekhniki (Problems of Physics, Mathematics and Technics), 2018, Issue 4(37), Pages 35–43 (Mi pfmt601)

PHYSICS

Effect of spatial orientation and thickness of Bi$_{12}$GeO$_{20}$ crystal on the gain of the subject light wave: theory and experiment

A. V. Makarevich^a, V. V. Shepelevich^a, S. M. Shandarov^b

^a I.P. Shamyakin Mozyr State Pedagogical University
^b Tomsk State University of Control Systems and Radioelectronics

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Abstract: The dependence of the gain of an object light wave in two-wave interaction on the orientation angle and the thickness of the photorefractive $(\overline{1}\,\overline{1}\,0)$-cut Bi$_{12}$GeO$_{20}$ crystal using only a single crystal sample with a thickness of $16$ mm has been experimentally investigated. The technique of carrying out the experiment and processing the results is described. The decisive role of the inverse piezoelectric and photoelastic effects in the theoretical interpretation of the experimental data is shown. Theoretical optimization of the gain of the object light wave in this crystal is performed.

Keywords: photorefractive crystal, BGO crystal, gain of the object light wave, electro-optical effect, inverse piezoelectric effect, photoelastic effect, optical activity.

Received: 02.08.2018

Document Type: Article

UDC: 535.4; 53.5

Language: Russian

Citation: A. V. Makarevich, V. V. Shepelevich, S. M. Shandarov, “Effect of spatial orientation and thickness of Bi$_{12}$GeO$_{20}$ crystal on the gain of the subject light wave: theory and experiment”, PFMT, 2018, no. 4(37), 35–43

Citation in format AMSBIB

\Bibitem{MakSheSha18}

\by A.~V.~Makarevich, V.~V.~Shepelevich, S.~M.~Shandarov

\paper Effect of spatial orientation and thickness of Bi$_{12}$GeO$_{20}$ crystal on the gain of the subject light wave: theory and experiment

\jour PFMT

\yr 2018

\issue 4(37)

\pages 35--43

\mathnet{http://mi.mathnet.ru/pfmt601}

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Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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Full-text PDF :	49
References:	17

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