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23 December 1983 Optimal Properties Of Photorefractive Materials For Optical Data Processing
George C. Valley, Marvin B. Klein
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Proceedings Volume 0388, Advances in Optical Information Processing I; (1983) https://doi.org/10.1117/12.934995
Event: 1983 Los Angeles Technical Symposium, 1983, Los Angeles, United States
Abstract
The charge transport model of photorefractivity is used to evaluate four figures of merit that can be used to characterize the performance of photorefractive materials. The figures of merit are the steady-state index change, the response time, the energy per area to write a grating with one percent diffraction efficiency, and the index change per absorbed energy per unit volume (photorefractive sensitivity). These indices are evaluated as a function of grating period and applied external electric field for Bi12Si020, a fast material with a relatively small electro-optic coefficient and BaTiO3, a slower material with a much larger electro-optic coefficient. Methods for optimizing the materials are discussed.
© (1983) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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George C. Valley and Marvin B. Klein "Optimal Properties Of Photorefractive Materials For Optical Data Processing", Proc. SPIE 0388, Advances in Optical Information Processing I, (23 December 1983); https://doi.org/10.1117/12.934995
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KEYWORDS
Ferroelectric materials
Crystals
Diffraction gratings
Electro optical modeling
Energy efficiency
Diffraction
Absorption
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