OSA's Digital Library

Applied Optics

Applied Optics

APPLICATIONS-CENTERED RESEARCH IN OPTICS

  • Vol. 26, Iss. 4 — Feb. 15, 1987
  • pp: 602–604

Fundamental limit of the speed of photorefractive effect and its impact on device applications and material research

Pochi Yeh  »View Author Affiliations


Applied Optics, Vol. 26, Issue 4, pp. 602-604 (1987)
http://dx.doi.org/10.1364/AO.26.000602


View Full Text Article

Enhanced HTML    Acrobat PDF (630 KB)





Browse Journals / Lookup Meetings

Browse by Journal and Year


   


Lookup Conference Papers

Close Browse Journals / Lookup Meetings

Article Tools

Share
Citations

No abstract available.

History
Original Manuscript: November 21, 1986
Published: February 15, 1987

Citation
Pochi Yeh, "Fundamental limit of the speed of photorefractive effect and its impact on device applications and material research," Appl. Opt. 26, 602-604 (1987)
http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-26-4-602


Sort:  Author  |  Year  |  Journal  |  Reset  

References

  1. V. L. Vinetskii, N. V. Kukhtarev, S. G. Odulov, M. S. Soskin, “Dynamic Self-Diffraction of Coherent Light Beams,” Sov. Phys. Usp. 22, 742 (1979). [CrossRef]
  2. N. V. Kukhtarev, V. B. Markov, S. G. Odulov, M. S. Soskin, V. L. Vinetskii, “Holographic Storage in Electro-Optic Crystals. Beam Coupling and Light Amplification,” Ferroelectrics 22, 949 (1979). [CrossRef]
  3. J. Feinberg, D. Heiman, A. R. Tanguay, R. Hellwarth, “Photorefractive Effects and Light-Induced Charge Migration in Barium Titanate,” J. Appl. Phys. 51, 1297 (1980); J. Appl. Phys. 52, 537 (1981). [CrossRef]
  4. S. Ducharme, J. Feinberg, “Speed of the Photorefractive Effect in a BaTiO3 Crystal,” J. Appl. Phys. 56, 839 (1984). [CrossRef]
  5. L. K. Lam, T. Y. Chang, J. Feinberg, R. W. Hellwarth, “Photorefractive-Index Gratings Formed by Nanosecond Optical Pulses in BaTiO3,” Opt. Lett. 6, 475 (1981). [CrossRef] [PubMed]
  6. See, for example, A. Yariv, P. Yeh, Optical Waves in Crystals (Wiley, New York, 1984).
  7. M. B. Klein, “Beam Coupling in Undoped GaAs at 1.06 μm. using the Photorefractive Effect,” Opt. Lett. 9, 350 (1984). [CrossRef] [PubMed]
  8. G. Albanses, J. Kumar, W. H. Steier, “Investigation of the Photorefractive Behavior of Chrome-Doped GaAs using Two-Beam Coupling,” Opt. Lett. 10, 650 (1986). [CrossRef]
  9. D. Rak, I. Ledoux, J. P. Huignard, “Two-Wave Mixing and Energy Transfer in BaTiO3, Application to Laser Beam Steering,” Opt. Commun. 49, 302 (1984). [CrossRef]
  10. Ph. Refregier, L. Solymer, H. Rajbenback, J. P. Huignard, “Two-Beam Coupling in Photorefractive Bi12SiO20 Crystals with Moving Gratings: Theory and Experiments,” J. Appl. Phys. 58, 45 (1985). [CrossRef]
  11. M. D. Ewbank, Author: add affiliation; private communications.
  12. M. B. Klein, G. C. Valley, “Origins of the Photorefractive Effect on BaTiO3,” in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Washington, DC, 1985), paper FG2.
  13. M. B. Klein, “Optimization of the Photorefractive Properties of BaTiO3,” in Technical Digest, Optical Society of America Annual Meeting (Optical Society of America, Washington, DC, 1986), paper MG2.
  14. A. M. Glass, A. M. Johnson, D. H. Olsen, W. Simpson, A. A. Ballman, “Four-Wave Mixing in Semi-Insulating InP and GaAs using the Photorefractive Effect,” Appl. Phys. Lett. 44, 948 (1984). [CrossRef]

Cited By

Alert me when this paper is cited

OSA is able to provide readers links to articles that cite this paper by participating in CrossRef's Cited-By Linking service. CrossRef includes content from more than 3000 publishers and societies. In addition to listing OSA journal articles that cite this paper, citing articles from other participating publishers will also be listed.

Figures

Fig. 1
 

« Previous Article  |  Next Article »

OSA is a member of CrossRef.

CrossCheck Deposited