Spatial and Temporal Behaviors of Instabilities Generated by Counterpropagating Laser Beams in Rubidium

A. Blouin; M. Pinard; A. Maître; J. R. Rios Leite; R. W. Boyd; G. Grynberg

doi:10.1364/NLO.1992.TuB5

Nonlinear Optics: Materials, Fundamentals, and Applications
Technical Digest Series (Optica Publishing Group, 1992),
paper TuB5
•https://doi.org/10.1364/NLO.1992.TuB5

Spatial and Temporal Behaviors of Instabilities Generated by Counterpropagating Laser Beams in Rubidium

A. Blouin, M. Pinard, A. Maître, J. R. Rios Leite, R. W. Boyd, and G. Grynberg

Nonlinear Optics 1992

Lahaina, Maui, Hawaii United States
17–21 August 1992
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A. Blouin, M. Pinard, A. Maître, J. R. Rios Leite, R. W. Boyd, and G. Grynberg, "Spatial and Temporal Behaviors of Instabilities Generated by Counterpropagating Laser Beams in Rubidium," in Nonlinear Optics: Materials, Fundamentals, and Applications, Technical Digest Series (Optica Publishing Group, 1992), paper TuB5.

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Abstract

Pattern formation in nonlinear systems is a very active subject in many areas of physics. For example, in hydrodynamics the arrangement of the convective cells of the Rayleigh-Bernard instability [1] constitutes a model problem for pattern formation. In optics, important advances have been recently obtained in the case of lasers [2]. In contrast, transverse pattern formation in mirrorless optical passive systems [3] is no so wellknown because of the intrinsic complexity of a system without cavity and of the fact that the first experiments were done with pulsed lasers [4]. We present here results obtained with c.w. lasers and rubidium atoms. In particular, the relationship with hydrodynamics observations, suggests the possible existence of some general rule for pattern formation.

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