Isotropic versus anisotropic modeling of photorefractive solitons

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

doi:10.1103/PhysRevE.65.066610

Isotropic versus anisotropic modeling of photorefractive solitons

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

^*Corresponding author for this work

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

27 Citations (Scopus)

Abstract

The question of the isotropic versus anisotropic modeling of incoherent spatial screening solitons in photorefractive crystals is addressed by a careful theoretical and numerical analysis. Isotropic, or local, models allow for an extended spiraling of two interacting scalar solitons, and for a prolonged propagation of vortex vector solitons, whereas anisotropic, nonlocal, models prevent such phenomena. In the context of Kukhtarev’s material equations, the difference in behavior is traced to the continuity equation for the current density. We further show that neither an indefinite spiraling of two solitons nor stable propagation of vortex vector solitons is generally possible in both isotropic and anisotropic models. Such systems do not conserve angular momentum, even in the case of an isotropic change in the index of refraction.

Original language	English
Journal	Physical Review E
Volume	65
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevE.65.066610
Publication status	Published - 18 Jun 2002
Externally published	Yes

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title = "Isotropic versus anisotropic modeling of photorefractive solitons",

abstract = "The question of the isotropic versus anisotropic modeling of incoherent spatial screening solitons in photorefractive crystals is addressed by a careful theoretical and numerical analysis. Isotropic, or local, models allow for an extended spiraling of two interacting scalar solitons, and for a prolonged propagation of vortex vector solitons, whereas anisotropic, nonlocal, models prevent such phenomena. In the context of Kukhtarev{\textquoteright}s material equations, the difference in behavior is traced to the continuity equation for the current density. We further show that neither an indefinite spiraling of two solitons nor stable propagation of vortex vector solitons is generally possible in both isotropic and anisotropic models. Such systems do not conserve angular momentum, even in the case of an isotropic change in the index of refraction.",

author = "Beli{\'c}, {M. R.} and D. Vuji{\'c} and A. Stepken and F. Kaiser and Calvo, {G. F.} and F. Agull{\'o}-L{\'o}pez and M. Carrascosa",

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T1 - Isotropic versus anisotropic modeling of photorefractive solitons

AU - Belić, M. R.

AU - Vujić, D.

AU - Stepken, A.

AU - Kaiser, F.

AU - Calvo, G. F.

AU - Agulló-López, F.

AU - Carrascosa, M.

PY - 2002/6/18

Y1 - 2002/6/18

N2 - The question of the isotropic versus anisotropic modeling of incoherent spatial screening solitons in photorefractive crystals is addressed by a careful theoretical and numerical analysis. Isotropic, or local, models allow for an extended spiraling of two interacting scalar solitons, and for a prolonged propagation of vortex vector solitons, whereas anisotropic, nonlocal, models prevent such phenomena. In the context of Kukhtarev’s material equations, the difference in behavior is traced to the continuity equation for the current density. We further show that neither an indefinite spiraling of two solitons nor stable propagation of vortex vector solitons is generally possible in both isotropic and anisotropic models. Such systems do not conserve angular momentum, even in the case of an isotropic change in the index of refraction.

AB - The question of the isotropic versus anisotropic modeling of incoherent spatial screening solitons in photorefractive crystals is addressed by a careful theoretical and numerical analysis. Isotropic, or local, models allow for an extended spiraling of two interacting scalar solitons, and for a prolonged propagation of vortex vector solitons, whereas anisotropic, nonlocal, models prevent such phenomena. In the context of Kukhtarev’s material equations, the difference in behavior is traced to the continuity equation for the current density. We further show that neither an indefinite spiraling of two solitons nor stable propagation of vortex vector solitons is generally possible in both isotropic and anisotropic models. Such systems do not conserve angular momentum, even in the case of an isotropic change in the index of refraction.

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DO - 10.1103/PhysRevE.65.066610

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VL - 65

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Isotropic versus anisotropic modeling of photorefractive solitons

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