论文信息 - Steady-state photorefractive gratings in LiNbO/sub 3/ for strong light modulation depths

Steady-state photorefractive gratings in LiNbO/sub 3/ for strong light modulation depths

The steady-state field gratings recorded in photovoltaic photorefractive materials have been investigated theoretically for high modulation's depths of the light intensity pattern (up to modulation depth m/spl ap/1). Several numerical methods have been used to deal with this strongly nonlinear regime and their capability critically evaluated. The number of harmonics contributing to the field gratings increases very strongly with m above m/spl gsim/0.8, leading to a strong localization of the fringes. The dependence of grating amplitude has been found to be superlinear on m. The role of the k vector, impurity concentration, and oxidation/reduction state on the holographic recording efficiency has also been analyzed. >

Mercedes Carrascosa | Fernando Agulló-López | Eduardo Serrano | Vicente López

[1] Lambertus Hesselink,et al. Nonlinear photorefractive response at high modulation depths , 1988 .

[2] Lambertus Hesselink,et al. Higher-order analysis of the photorefractive effect for large modulation depths , 1986 .

[3] R. Hellwarth,et al. Spatial harmonics of photorefractive gratings in a barium titanate crystal , 1992 .

[4] Photorefractive hologram writing with modulation 1. , 1991, Optics letters.

[5] Henri Rajbenbach,et al. Two‐beam coupling in photorefractive Bi12SiO20 crystals with moving grating: Theory and experiments , 1985 .

[6] F. Agullo-Lopez,et al. Kinetics for optical erasure of sinusoidal holographic gratings in photorefractive materials , 1986 .

[7] M. Soskin,et al. Holographic storage in electrooptic crystals. i. steady state , 1978 .

[8] Robert Magnusson,et al. Holographic grating formation in photorefractive crystals with arbitrary electron transport lengths , 1979 .

[9] Steady holographic gratings formed in photorefractive materials: influence of material parameters , 1991 .

[10] L B Au,et al. Space-charge field in photorefractive materials at large modulation. , 1988, Optics letters.