Generation of coherent acoustic beams in solids by mixing of counterpropagating, detuned optical beams [Invited] | Zendy

Vincent Laude | Zendy; Maria Korotyaeva | Zendy; JeanCharles Beugnot | Zendy

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Generation of coherent acoustic beams in solids by mixing of counterpropagating, detuned optical beams [Invited]

Author(s) -

Vincent Laude,

Maria Korotyaeva,

JeanCharles Beugnot

Publication year - 2018

Publication title -

applied optics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.668

H-Index - 197

eISSN - 2155-3165

pISSN - 1559-128X

DOI - 10.1364/ao.57.000c77

Subject(s) - brillouin scattering , optics , physics , beam (structure) , acoustic wave , light beam , brillouin zone , laser

We model the generation of coherent acoustic beams in a homogeneous solid from the interference of two oppositely propagating, detuned optical laser beams. This configuration is reciprocal to Brillouin light scattering in the backward interaction arrangement. Generation of a confined ultrasound beam is predicted, close to the Brillouin frequency. Optoacoustic gain spectra and beam shapes are obtained numerically using a finite element model. The acoustic spectra are non-symmetrical, i.e., non-Lorentzian, and result from excitation of the continuum of bulk elastic waves. The acoustic beam width correspondingly varies with detuning frequency and optical beam waist.

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