Vectorial solution to the photorefractive band transport model in the spatial and temporal Fourier transformed domain

Author

Johansen, Per Michael

Author_Institution

Riso Nat. Lab., Denmark

Volume

25

Issue

3

fYear

1989

fDate

3/1/1989 12:00:00 AM

Firstpage

530

Lastpage

539

Abstract

The frequency dependence of the photorefractive effect is considered. The frequencies can be applied by introducing a temporal phase shift in one of the beams in a two-wave mixing configuration. The analysis of the Kukhtarev equations is based on the small modulation approximation, but in contrast to earlier papers, no a priori approximations are made. The analysis results in a second-order model with an explicit dependence on both the grating spacing and the temporal grating frequency. Curves for the modulus and the imaginary part of the space-charge field are obtained, and it is concluded that, for small fringe spacings, the second-order model presented provides important information on the photorefractive effect

Keywords

Fourier transform optics; diffraction gratings; photorefractive effect; Kukhtarev equations; frequency dependence; fringe spacings; grating spacing; modulus curves; photorefractive band transport model; photorefractive effect; second-order model; space-charge field; spatial Fourier transformed domain; temporal Fourier transformed domain; temporal grating frequency; temporal phase shift; two-wave mixing configuration; vectorial solution; Current density; Doppler shift; Equations; Four-wave mixing; Frequency conversion; Frequency dependence; Gratings; Photorefractive effect; Photorefractive materials; Refractive index;

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/3.18566

Filename

18566