Solitary wave propagation and steering through light-induced refractive potentials

Gaetano Assanto; Benjamin D. Skuse; Noel F. Smyth

doi:10.1103/PhysRevA.81.063811

Solitary wave propagation and steering through light-induced refractive potentials

Gaetano Assanto, Benjamin D. Skuse, Noel F. Smyth

School of Mathematics

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

Abstract

The steering of a self-guided beam in a dye-doped nematic liquid crystal caused by an external illumination (control beam) that induces changes in the refractive index of the medium is theoretically analyzed. The interaction between the control beam and the dye molecules modifies the anchoring of the nematic molecules, so changing the director orientation in the bulk of the medium. Beam evolution is investigated by use of a modulation theory approach. It is found that the beam trajectory is independent of the beam profile, as long as this profile is self-similar. Solutions obtained from the modulation theory approach are in excellent agreement with numerical solutions.

Original language	English
Article number	063811
Pages (from-to)	-
Number of pages	7
Journal	Physical Review A
Volume	81
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.81.063811
Publication status	Published - 10 Jun 2010

Keywords / Materials (for Non-textual outputs)

NEMATIC LIQUID-CRYSTALS
SPATIAL SOLITONS
NONLINEARITY
REFLECTION

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10.1103/PhysRevA.81.063811

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title = "Solitary wave propagation and steering through light-induced refractive potentials",

abstract = "The steering of a self-guided beam in a dye-doped nematic liquid crystal caused by an external illumination (control beam) that induces changes in the refractive index of the medium is theoretically analyzed. The interaction between the control beam and the dye molecules modifies the anchoring of the nematic molecules, so changing the director orientation in the bulk of the medium. Beam evolution is investigated by use of a modulation theory approach. It is found that the beam trajectory is independent of the beam profile, as long as this profile is self-similar. Solutions obtained from the modulation theory approach are in excellent agreement with numerical solutions.",

keywords = "NEMATIC LIQUID-CRYSTALS, SPATIAL SOLITONS, NONLINEARITY, REFLECTION",

author = "Gaetano Assanto and Skuse, {Benjamin D.} and Smyth, {Noel F.}",

year = "2010",

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doi = "10.1103/PhysRevA.81.063811",

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AU - Assanto, Gaetano

AU - Skuse, Benjamin D.

AU - Smyth, Noel F.

PY - 2010/6/10

Y1 - 2010/6/10

N2 - The steering of a self-guided beam in a dye-doped nematic liquid crystal caused by an external illumination (control beam) that induces changes in the refractive index of the medium is theoretically analyzed. The interaction between the control beam and the dye molecules modifies the anchoring of the nematic molecules, so changing the director orientation in the bulk of the medium. Beam evolution is investigated by use of a modulation theory approach. It is found that the beam trajectory is independent of the beam profile, as long as this profile is self-similar. Solutions obtained from the modulation theory approach are in excellent agreement with numerical solutions.

AB - The steering of a self-guided beam in a dye-doped nematic liquid crystal caused by an external illumination (control beam) that induces changes in the refractive index of the medium is theoretically analyzed. The interaction between the control beam and the dye molecules modifies the anchoring of the nematic molecules, so changing the director orientation in the bulk of the medium. Beam evolution is investigated by use of a modulation theory approach. It is found that the beam trajectory is independent of the beam profile, as long as this profile is self-similar. Solutions obtained from the modulation theory approach are in excellent agreement with numerical solutions.

KW - NEMATIC LIQUID-CRYSTALS

KW - SPATIAL SOLITONS

KW - NONLINEARITY

KW - REFLECTION

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JO - Physical Review A

JF - Physical Review A

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M1 - 063811

ER -

Solitary wave propagation and steering through light-induced refractive potentials

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Coupling coherent structures and linear radiation

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Solitary wave propagation and steering through light-induced refractive potentials

Abstract

Keywords / Materials (for Non-textual outputs)

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Coupling coherent structures and linear radiation

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