Spatial screening solitons as particles

M. R. Belic; A. Stepken; F. Kaiser

doi:10.1103/PhysRevLett.84.83

Spatial screening solitons as particles

M. R. Belic, A. Stepken, F. Kaiser

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

19 Citations (Scopus)

Abstract

Photorefractive spatial screening solitons are treated as rays using geometrical optics. The ray picture is transformed into a classical mechanics picture, in which solitons move self-consistently as particles in a potential created by the induced change in the refractive index. The Hamiltonian equations of motion are integrated to yield trajectories that agree with the optical center-of-mass trajectories. The motion in the transverse plane is found to be not central and the orbits are not closed, preventing the spiraling of solitons.

Original language	English
Pages (from-to)	83-86
Number of pages	4
Journal	Physical Review Letters
Volume	84
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.84.83
Publication status	Published - 2000
Externally published	Yes

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10.1103/PhysRevLett.84.83

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title = "Spatial screening solitons as particles",

abstract = "Photorefractive spatial screening solitons are treated as rays using geometrical optics. The ray picture is transformed into a classical mechanics picture, in which solitons move self-consistently as particles in a potential created by the induced change in the refractive index. The Hamiltonian equations of motion are integrated to yield trajectories that agree with the optical center-of-mass trajectories. The motion in the transverse plane is found to be not central and the orbits are not closed, preventing the spiraling of solitons.",

author = "Belic, {M. R.} and A. Stepken and F. Kaiser",

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AB - Photorefractive spatial screening solitons are treated as rays using geometrical optics. The ray picture is transformed into a classical mechanics picture, in which solitons move self-consistently as particles in a potential created by the induced change in the refractive index. The Hamiltonian equations of motion are integrated to yield trajectories that agree with the optical center-of-mass trajectories. The motion in the transverse plane is found to be not central and the orbits are not closed, preventing the spiraling of solitons.

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Spatial screening solitons as particles

Abstract

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