Stability of focusing regions and its vortex-solitonic properties

E. Saldivia Gomez; G. Arenas Munoz; J. C. Atenco Cuautle; F. Cubillos Morales; J. A. Martinez Martinez; P. Martinez Vara; G. Martinez Niconoff

doi:10.1364/OL.400069

Optics Letters
Vol. 45,
Issue 18,
pp. 5121-5124
(2020)
•https://doi.org/10.1364/OL.400069

Stability of focusing regions and its vortex-solitonic properties

E. Saldivia Gomez, G. Arenas Munoz, J. C. Atenco Cuautle, F. Cubillos Morales, J. A. Martinez Martinez, P. Martinez Vara, and G. Martinez Niconoff

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E. Saldivia Gomez, G. Arenas Munoz, J. C. Atenco Cuautle, F. Cubillos Morales, J. A. Martinez Martinez, P. Martinez Vara, and G. Martinez Niconoff, "Stability of focusing regions and its vortex-solitonic properties," Opt. Lett. 45, 5121-5124 (2020)

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Abstract

Focusing regions, also known as caustic regions, are the singular solutions to the amplitude function of optical fields. Focusing regions are generated by the envelope curve of a set of critical points, which can be of attractor or repulsor type. The nature of the critical point depends on the refractive index. An important property of the critical points is that they present charge-like features. When a focusing region is generated in media with a random refractive index, current-like effects appear, and the evolution of the focusing regions follows a diffusion behavior. The morphology of the focusing regions may generate vortices or “eternal solutions” of solitonic type in a nonlinear medium. Herein, the condition under which these effects occur is analyzed and experimentally corroborated.

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Optics Letters