Running transverse waves in optical phase conjugation

Jörg Leonardy; Friedemann Kaiser; Milivoj R. Belić; Ortwin Hess

doi:10.1103/PhysRevA.53.4519

Running transverse waves in optical phase conjugation

Jörg Leonardy, Friedemann Kaiser, Milivoj R. Belić, Ortwin Hess

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18 Citations (Scopus)

Abstract

We investigate the dynamics of four-wave mixing processes in photorefractive crystals in paraxial approximation, assuming the phase-conjugation condition. By applying an external electric field to the crystal, we observe an onset of instabilities in the phase-conjugate beam, the generation of running transverse waves, their mutual collisions, and a continuous transition to a regime of spatiotemporal chaos. This state appears as irregularly oscillating defectlike patterns in one transverse dimension. Running transverse waves are identified as the basic modes of the system giving rise to a secondary instability. The observed regular and irregular spatiotemporal oscillations are characterized by means of a spatiotemporal cross-correlation function and singular value decomposition. In the extension to two transverse dimensions the possibility of an even greater variety of regular and irregular patterns is observed.

Original language	English
Pages (from-to)	4519-4527
Number of pages	9
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	53
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.53.4519
Publication status	Published - 1996
Externally published	Yes

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10.1103/PhysRevA.53.4519

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title = "Running transverse waves in optical phase conjugation",

abstract = "We investigate the dynamics of four-wave mixing processes in photorefractive crystals in paraxial approximation, assuming the phase-conjugation condition. By applying an external electric field to the crystal, we observe an onset of instabilities in the phase-conjugate beam, the generation of running transverse waves, their mutual collisions, and a continuous transition to a regime of spatiotemporal chaos. This state appears as irregularly oscillating defectlike patterns in one transverse dimension. Running transverse waves are identified as the basic modes of the system giving rise to a secondary instability. The observed regular and irregular spatiotemporal oscillations are characterized by means of a spatiotemporal cross-correlation function and singular value decomposition. In the extension to two transverse dimensions the possibility of an even greater variety of regular and irregular patterns is observed.",

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doi = "10.1103/PhysRevA.53.4519",

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AU - Leonardy, Jörg

AU - Kaiser, Friedemann

AU - Belić, Milivoj R.

AU - Hess, Ortwin

PY - 1996

Y1 - 1996

N2 - We investigate the dynamics of four-wave mixing processes in photorefractive crystals in paraxial approximation, assuming the phase-conjugation condition. By applying an external electric field to the crystal, we observe an onset of instabilities in the phase-conjugate beam, the generation of running transverse waves, their mutual collisions, and a continuous transition to a regime of spatiotemporal chaos. This state appears as irregularly oscillating defectlike patterns in one transverse dimension. Running transverse waves are identified as the basic modes of the system giving rise to a secondary instability. The observed regular and irregular spatiotemporal oscillations are characterized by means of a spatiotemporal cross-correlation function and singular value decomposition. In the extension to two transverse dimensions the possibility of an even greater variety of regular and irregular patterns is observed.

AB - We investigate the dynamics of four-wave mixing processes in photorefractive crystals in paraxial approximation, assuming the phase-conjugation condition. By applying an external electric field to the crystal, we observe an onset of instabilities in the phase-conjugate beam, the generation of running transverse waves, their mutual collisions, and a continuous transition to a regime of spatiotemporal chaos. This state appears as irregularly oscillating defectlike patterns in one transverse dimension. Running transverse waves are identified as the basic modes of the system giving rise to a secondary instability. The observed regular and irregular spatiotemporal oscillations are characterized by means of a spatiotemporal cross-correlation function and singular value decomposition. In the extension to two transverse dimensions the possibility of an even greater variety of regular and irregular patterns is observed.

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EP - 4527

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

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ER -

Running transverse waves in optical phase conjugation

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