Optomechanical Lasing and Domain Walls Driven by Exciton-Phonon Interactions

A. V. Yulin; A. V. Poshakinskiy; A. N. Poddubny

doi:10.48550/arXiv.2107.12019

Optomechanical Lasing and Domain Walls Driven by Exciton-Phonon Interactions

A. V. Yulin, A. V. Poshakinskiy, A. N. Poddubny

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

Abstract

We study theoretically interaction of optically-pumped excitons with acoustic waves in planar semiconductor nanostructures in the strongly nonlinear regime. We start with the multimode optomechanical lasing regime for optical pump frequency above the exciton resonance and demonstrate broadband chaotic-like lasing spectra. We also predict formation of propagating optomechanical domain walls driven by optomechanical nonlinearity for the optical pump below the exciton resonance. Stability conditions for the domain walls are examined analytically and are in agreement with direct numerical simulations. Our results apply to nonlinear sound propagation in the arrays of quantum wells or in the plane of Bragg semiconductor microcavities hosting excitonic polaritons.

Original language	English
Pages (from-to)	171-182
Number of pages	12
Journal	Journal of Experimental and Theoretical Physics
Volume	134
Issue number	2
DOIs	https://doi.org/10.48550/arXiv.2107.12019 https://doi.org/10.1134/S1063776122010058
State	Published - Feb 2022
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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@article{e23a38e38c1f453a928f8edae94b8b83,

title = "Optomechanical Lasing and Domain Walls Driven by Exciton-Phonon Interactions",

abstract = "We study theoretically interaction of optically-pumped excitons with acoustic waves in planar semiconductor nanostructures in the strongly nonlinear regime. We start with the multimode optomechanical lasing regime for optical pump frequency above the exciton resonance and demonstrate broadband chaotic-like lasing spectra. We also predict formation of propagating optomechanical domain walls driven by optomechanical nonlinearity for the optical pump below the exciton resonance. Stability conditions for the domain walls are examined analytically and are in agreement with direct numerical simulations. Our results apply to nonlinear sound propagation in the arrays of quantum wells or in the plane of Bragg semiconductor microcavities hosting excitonic polaritons.",

author = "Yulin, {A. V.} and Poshakinskiy, {A. V.} and Poddubny, {A. N.}",

note = "Publisher Copyright: {\textcopyright} 2022, Pleiades Publishing, Inc.",

year = "2022",

month = feb,

doi = "10.48550/arXiv.2107.12019",

language = "الإنجليزيّة",

volume = "134",

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journal = "Journal of Experimental and Theoretical Physics",

issn = "1063-7761",

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TY - JOUR

T1 - Optomechanical Lasing and Domain Walls Driven by Exciton-Phonon Interactions

AU - Yulin, A. V.

AU - Poshakinskiy, A. V.

AU - Poddubny, A. N.

PY - 2022/2

Y1 - 2022/2

N2 - We study theoretically interaction of optically-pumped excitons with acoustic waves in planar semiconductor nanostructures in the strongly nonlinear regime. We start with the multimode optomechanical lasing regime for optical pump frequency above the exciton resonance and demonstrate broadband chaotic-like lasing spectra. We also predict formation of propagating optomechanical domain walls driven by optomechanical nonlinearity for the optical pump below the exciton resonance. Stability conditions for the domain walls are examined analytically and are in agreement with direct numerical simulations. Our results apply to nonlinear sound propagation in the arrays of quantum wells or in the plane of Bragg semiconductor microcavities hosting excitonic polaritons.

AB - We study theoretically interaction of optically-pumped excitons with acoustic waves in planar semiconductor nanostructures in the strongly nonlinear regime. We start with the multimode optomechanical lasing regime for optical pump frequency above the exciton resonance and demonstrate broadband chaotic-like lasing spectra. We also predict formation of propagating optomechanical domain walls driven by optomechanical nonlinearity for the optical pump below the exciton resonance. Stability conditions for the domain walls are examined analytically and are in agreement with direct numerical simulations. Our results apply to nonlinear sound propagation in the arrays of quantum wells or in the plane of Bragg semiconductor microcavities hosting excitonic polaritons.

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U2 - 10.48550/arXiv.2107.12019

DO - 10.48550/arXiv.2107.12019

M3 - مقالة

SN - 1063-7761

VL - 134

SP - 171

EP - 182

JO - Journal of Experimental and Theoretical Physics

JF - Journal of Experimental and Theoretical Physics

IS - 2

ER -

Optomechanical Lasing and Domain Walls Driven by Exciton-Phonon Interactions

Abstract

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