Technical Physics Letters
To authors
Volumes and Issues
- 2024
- 2023
- 2022
Acousto-Optic MultiBeam Axial Diffraction in Paratellurite
Antonov S. N.
1, Rezvov Yu. G.
2, Podolsky V. A.2, Sivkova O. D.2
1Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Fryazino Branch, Fryazino, Russia
2Novomoskovsk Institute (branch) of the Federal state budgetary educational institution of higher education “Dmitry Mendeleev University of Chemical Technology of Russia”,Novomoskovsk, Tulskaya reg., Russia
2Novomoskovsk Institute (branch) of the Federal state budgetary educational institution of higher education “Dmitry Mendeleev University of Chemical Technology of Russia”,Novomoskovsk, Tulskaya reg., Russia
Email: olga-ant@yandex.ru, rezvovyug@mail.ru, vadim.podolskyi@gmail.com, oldmisivkova30@mail.ru
To form a multibeam radiation pattern, it is proposed to use the axial geometry of acousto-optic interaction in paratellurite. In the single frequency mode, the use of this geometry for angular scanning is characterized by a dip in the frequency response. Optimization of a multifrequency radio signal makes it possible to efficiently divide laser radiation into several beams with maintaining the fundamental advantages of axial geometry: minimum crystal size and power consumption. Keywords: acousto-optic diffraction, acousto-optic deflector, axial geometry, multifrequency mode, paratellurite.
- L.N. Magdich, V.Ya. Molchanov, Acoustooptic devices and their applications (Gordon and Breach, N.Y., 1989)
- V.I. Balakshy, V.N. Parygin, L.E. Chirkov, Fizicheskie osnovy akustooptiki (Radio i svyaz', M., 1985) (in Russian)
- A. Korpel, Acousto-optics (Marcel Dekker, N.Y., 1988)
- J. Xu, R. Stroud, Acousto-optic devices (Wiley, N.Y., 1992)
- Design and fabrication of acousto-optic devices, ed. by A.P. Goutzoulis, D.R. Pape (Marcel Dekker, N.Y., 1988)
- V.Ya. Molchanov, Yu.I. Kitaev, A.I. Kolesnikov, V.N. Narver, A.Z. Rozenshtein, N.P. Solodovnikov, K.G. Shapovalenko, Teoriya i praktika sovremennoy akustiki (MISiS, M., 2015) (in Russian)
- S.N. Antonov, Y.G. Rezvov, Instrum. Exp. Tech., 63 (6), 835 (2020). DOI: 10.1134/S0020441220050267
- S.N. Antonov, Yu.G. Rezvov, Tech. Phys., 52 (8), 1053 (2007). DOI: 10.1134/S1063784207080154
- S.N. Antonov, A.V. Vainer, V.V. Proklov, Yu.G. Rezvov, Tech. Phys., 53 (6), 752 (2008). http://journals.ioffe.ru/articles/9437 DOI: 10.1134/S1063784208060145
- S.N. Antonov, A.V. Vainer, Y.Y. Gubareva, L.F. Kupchenko, V.V. Proklov, Yu.G. Rezvov, Tech. Phys. Lett., 37 (6), 530 (2011). journals.ioffe.ru/articles/12582 DOI: 10.1134/S1063785011060022
- T. Yano, M. Kawabuchi, A. Fukumoto, A. Watanabe, Appl. Phys. Lett., 26 (12), 689 (1975). DOI: 10.1063/1.88037
- A.W. Warner, D.L. White, W.A. Bonner, J. Appl. Phys., 43 (11), 4489 (1972). DOI: 10.1063/1.1660950
- A.V. Zakharov, V.B. Voloshinov, Tech. Phys., 61 (9), 1377 (2016). http://journals.ioffe.ru/articles/43561 DOI: 10.1134/S1063784216090292.
Подсчитывается количество просмотров абстрактов ("html" на диаграммах) и полных версий статей ("pdf"). Просмотры с одинаковых IP-адресов засчитываются, если происходят с интервалом не менее 2-х часов.
Дата начала обработки статистических данных - 27 января 2016 г.