Counterpropagating beams in biased photorefractive crystals: anisotropic theory
Date
2005-01-19
Authors
Motzek, Kristian
Belic, Milivoj
Richter, T
Denz, Cornelia
Desyatnikov, Anton S
Jander, Philip
Kaiser, Friedemann
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American Physical Society
Abstract
We formulate an anisotropic nonlocal theory of the space charge field induced by the coherent counterpropagating
beams in biased photorefractive crystals. We establish that the competition between the drift and
diffusion terms has to be taken into account when the crystal cˆ axis is tilted with respect to the propagation
direction of the beams. We demonstrate that this configuration combines the features of both spatial soliton
formation without energy exchange and two-wave mixing with energy exchange leading to pattern formation.
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Keywords
Keywords: Energy exchange; Pattern formation; Photorefractive crystals; Space charge fields; Anisotropy; Diffusion; Electric fields; Indexing (of information); Light; Problem solving; Refraction; Vectors; Crystals
Citation
Physical Review, E, Statistical, Nonlinear and Soft Matter Physics 71.1 (2005): 016610/1-5
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Physical Review E-Statistical, Nonlinear and Soft Matter Physics
Type
Journal article
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