Two-dimensional soliton-induced refractive index change in photorefractive crystals

G. F. Calvo; F. Agulló-López; M. Carrascosa; M. R. Belić; D. Vujić

doi:10.1016/j.optcom.2003.09.061

Two-dimensional soliton-induced refractive index change in photorefractive crystals

G. F. Calvo, F. Agulló-López, M. Carrascosa, M. R. Belić^*, D. Vujić

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

An analysis of light-induced space-charge field, valid for the propagation of two-dimensional solitons in photorefractive (PR) crystals, is carried out. Under conditions appropriate to the formation of self-trapped beams, the equation for the electrostatic potential is simplified and solved, to obtain an analytical expression for the space-charge field, and thus the refractive index change. The expression exhibits an excellent agreement with the numerical calculation for a variety of localized two-dimensional light beams, in particular for the bright fundamental and higher-order vortex spatial screening solitary waves. Based on analytical results, a class of models for the local isotropic two-dimensional space-charge field is proposed. They are compared to the general nonlocal anisotropic model, using the propagation and breakup of vortex beams as an example.

Original language	English
Pages (from-to)	193-202
Number of pages	10
Journal	Optics Communications
Volume	227
Issue number	1-3
DOIs	https://doi.org/10.1016/j.optcom.2003.09.061
Publication status	Published - 1 Nov 2003
Externally published	Yes

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10.1016/j.optcom.2003.09.061

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title = "Two-dimensional soliton-induced refractive index change in photorefractive crystals",

abstract = "An analysis of light-induced space-charge field, valid for the propagation of two-dimensional solitons in photorefractive (PR) crystals, is carried out. Under conditions appropriate to the formation of self-trapped beams, the equation for the electrostatic potential is simplified and solved, to obtain an analytical expression for the space-charge field, and thus the refractive index change. The expression exhibits an excellent agreement with the numerical calculation for a variety of localized two-dimensional light beams, in particular for the bright fundamental and higher-order vortex spatial screening solitary waves. Based on analytical results, a class of models for the local isotropic two-dimensional space-charge field is proposed. They are compared to the general nonlocal anisotropic model, using the propagation and breakup of vortex beams as an example.",

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AU - Calvo, G. F.

AU - Agulló-López, F.

AU - Carrascosa, M.

AU - Belić, M. R.

AU - Vujić, D.

PY - 2003/11/1

Y1 - 2003/11/1

N2 - An analysis of light-induced space-charge field, valid for the propagation of two-dimensional solitons in photorefractive (PR) crystals, is carried out. Under conditions appropriate to the formation of self-trapped beams, the equation for the electrostatic potential is simplified and solved, to obtain an analytical expression for the space-charge field, and thus the refractive index change. The expression exhibits an excellent agreement with the numerical calculation for a variety of localized two-dimensional light beams, in particular for the bright fundamental and higher-order vortex spatial screening solitary waves. Based on analytical results, a class of models for the local isotropic two-dimensional space-charge field is proposed. They are compared to the general nonlocal anisotropic model, using the propagation and breakup of vortex beams as an example.

AB - An analysis of light-induced space-charge field, valid for the propagation of two-dimensional solitons in photorefractive (PR) crystals, is carried out. Under conditions appropriate to the formation of self-trapped beams, the equation for the electrostatic potential is simplified and solved, to obtain an analytical expression for the space-charge field, and thus the refractive index change. The expression exhibits an excellent agreement with the numerical calculation for a variety of localized two-dimensional light beams, in particular for the bright fundamental and higher-order vortex spatial screening solitary waves. Based on analytical results, a class of models for the local isotropic two-dimensional space-charge field is proposed. They are compared to the general nonlocal anisotropic model, using the propagation and breakup of vortex beams as an example.

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Two-dimensional soliton-induced refractive index change in photorefractive crystals

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