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Modern applications of high frequency acoustooptics

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Wybrane pełne teksty z tego czasopisma
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Języki publikacji
EN
Abstrakty
EN
The milestone applications of high frequency acoustooptics are discussed. The acoustooptical (AO) components such as Bragg modulator (including standing and running wave modulators), deflectors, others on very high frequencies (up to 10 GHz) working in wide frequency range (up to 3 GHz) are considered. Some review of traditional and modern uses is given. The main principles and peculiarities of Bragg cells design are discussed. The results of experimental investigationappeart to correspond with theoretical predictions. The specific problems which are stipulated by a very high frequency range are considered. These are: great influence of sound attenuation; peculiarities of interaction geometry and light aperture formation; multilayer transducer features; electrical matching with electromagnetic power wave guide. The ways of optimizing the parameters of high frequency Bragg cells are discussed.
Czasopismo
Rocznik
Strony
597--606
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
autor
Bibliografia
  • [1] PETROV V.V., GRIGOR’EV M.A., Transducer for bulk acoustic waves, Author’s certificate #1335111,priority 22 May 1985.
  • [2] PETROV V.V., et al., Acoustooptical deflector, Patent of Russian Federation #2136032, priority 08.12.1997.
  • [3] PETROV V.V., Multielement electroacoustical transducer, Patent of Russian Federation #2085983, priority 12.03.1995.
  • [4] PETROV V.V., How to create 3 GHz bandwidth AO bragg cell, Advances in Acoustooptics’96 10-thtopical meeting of the European Optical Society, France Telecom CNET, Paris, France, 6–7 June 1996, pp. 46–47.
  • [5] PETROV V.V., GUR’EV B.M., ZIBOROV V.I., CHERNOBROVKIN A.D., Proc. SPIE 2051 (1993), 124.
  • [6] BALAKSHY V.I., PARYGIN V.N., CHIRKOV L.E., Physical basis of acoustooptics, [In] Radio i Svyaz, Moskow 1985, p. 278 (in Russian).
  • [7] PETROV V.V., LAPIN S.A., Development and design of standing wave acoustooptical high frequency modulator, [In] Anual Report of SPF “Excentre”, No. 160301 (2001).
  • [8] PETROV V.V., GUR’EV B.M., KOLOSOV V.V., KURYSHOV S.S., LAPIN S.A., SAPRIEL J., Photonics and Optoelectronics 3 (1995), 12.
  • [9] PETROV V.V., Set-up for electronic forming of three dimensional holographic image, Patent of Russian Federation #2117975, priority 13.11.1996.
  • [10] PETROV V.V., Holographic Video. Acoustooptical Approach, “GosUNZ”-Publishing-house, Saratov 2002.
  • [11] PETROV V., Acoustooptical approach for moving scene holography, [In] Proceedings of IMID’2003, Daegu, South Korea, July 9–11, 2003, pp. 451–462.
  • [12] DENISYUK YU.N., About reproduction of object optical features in wave field of radiation, distorted by this object, Academy of Sciences of the USSR (DAN SSSR), 144 (1962) 1275; Opt. Spectrosk.15 (1963), 522; 18 (1965), 152.
  • [13] POON T.-C., BANERJEE P.P., Proc. SPIE 4514 (2001), 61.
  • [14] CHATTERJEE M.R., HUANG J.J., Appl. Opt. 31 (1992), 2506.
  • [15] BALAKSHY V.I., NAGAEVA I.A., Quantum Electron. 23 (1996), 261.
  • [16] BALAKSHY V.I., EMELIANOV S.V., Proc. SPIE 4514 (2001), 82.
  • [17] REIBOLD R., KWIEK P., Acustica 81 (1995), 43.
  • [18] DECUSATIS C., KOAY J., LITYNSKI D.M., DAS P., Proc. SPIE 2643 (1995), 17.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA1-0004-0028
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