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Journal of Optical Technology

Journal of Optical Technology

| SIMULTANEOUS RUSSIAN-ENGLISH PUBLICATION

  • Vol. 79, Iss. 10 — Oct. 1, 2012
  • pp: 645–648

Features of the diffraction of supershort pulsed radiation in a system of superimposed transmitting volume phase holographic gratings

N. V. Ionina  »View Author Affiliations


Journal of Optical Technology, Vol. 79, Issue 10, pp. 645-648 (2012)
http://dx.doi.org/10.1364/JOT.79.000645


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Abstract

This paper discusses how the shape and spectrum of supershort radiation pulses are transformed as a result of diffraction at superimposed transmitting volume phase holographic gratings. It shows that de-interleaving of the light signal with simultaneous demultiplexing in the diffracted beam can be carried out in such a system.

© 2012 OSA

History
Original Manuscript: April 24, 2012
Published: October 31, 2012

Citation
N. V. Ionina, "Features of the diffraction of supershort pulsed radiation in a system of superimposed transmitting volume phase holographic gratings," J. Opt. Technol. 79, 645-648 (2012)
http://www.opticsinfobase.org/jot/abstract.cfm?URI=jot-79-10-645


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References

  1. S. A. Akhmanov, V. A. Vysloukh, and A. S. Chirkin, The Optics of Femtosecond Laser Pulses (Nauka, Moscow, 1988).
  2. Collection. The Optics of Nanostructures (Nedra, St. Petersburg, 2005).
  3. R. L. Freeman, Fiber-Optics Systems for Telecommunications (Wiley-Interscience, New York, 2002; Tekhnosfera, Moscow, 2007).
  4. Yu. T. Mazurenko, “Self-referential measurement of a supershort pulse by the method of interferometry of monochromatic waves,” in Transactions of the Scientific Research Center of Photonics and Optoinformatics (GU ITMO, St. Petersburg, 2009), pp. 159–185.
  5. M. A. Cervantes and A. M. Smolovich, “Ultrashort light-pulse scattering by 3D interference-fringe structure,” Proc. SPIE 4752, 66 (2002). [CrossRef]
  6. N. V. Ionina, “Features of the diffraction of pulsed femtosecond radiation at a transmissive holographic volume grating,” Opt. Zh. 76, No. 6, 34 (2009). [J. Opt. Technol. 76, 345 (2009)].
  7. L. Solymar and D. J. Cook, Volume Holography and Volume Gratings (Academic Press, London, 1981), pp. 155–160.
  8. H. Kogelnik, “Coupled wave theory for thick hologram grating,” Bell Syst. Tech. J. 48, 2909 (1969).
  9. N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “How the holographic characteristics of samples of a polymeric recording medium are associated with their hardness,” Opt. Zh. 69, No. 6, 35 (2002). [J. Opt. Technol. 69, 403 (2002)].
  10. N. V. Ionina, O. V. Andreeva, O. V. Bandyuk, and A. A. Paramonov, “Features of the post-exposure processing of the polymeric recording material Diffen for holographic elements,” in Collection of the Transactions of the Sixth International Conference on Applied Optics 2004, St. Petersburg, 2004, pp. 175–177.

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