Theoretical formalisms for stimulated Brillouin scattering

Christian Wolff; Christopher G. Poulton; Michael J. Steel; Gustavo Wiederhecker

doi:10.1016/bs.semsem.2022.04.002

Theoretical formalisms for stimulated Brillouin scattering

Christian Wolff^*, Christopher G. Poulton, Michael J. Steel, Gustavo Wiederhecker

^*Kontaktforfatter

Publikation: Kapitel i bog/rapport/konference-proceeding › Kapitel i bog › Forskning › peer review

Abstract

We present the theoretical formalism for Brillouin scattering, beginning with the equations for linear elasticity together with Maxwells equations, and ending with the equations of motion for the optical and acoustic envelope fields. The treatment presented here is based on the Hamiltonian for the opto-acoustic interaction, but we discuss other possible derivations, as well as alternate formulations that describe Brillouin phenomena. We cover the theory of Brillouin scattering in both waveguides and resonators, and present the equations for several typical settings in each case. An Appendix gives a brief introduction to linear elasticity theory for optical physicists.

Originalsprog	Engelsk
Titel	Brillouin Scattering Part 1
Redaktører	Benjamin J. Eggleton, Michael J. Steel, Christopher G. Poulton
Forlag	Academic Press
Publikationsdato	2022
Sider	27-91
Kapitel	2
ISBN (Trykt)	9780323989299
DOI	https://doi.org/10.1016/bs.semsem.2022.04.002
Status	Udgivet - 2022

Navn	Semiconductors and Semimetals
Vol/bind	109
ISSN	0080-8784

Bibliografisk note

Funding Information:
C.G.P. and M.J.S. acknowledge support from the Australian Research Council Discovery Project scheme under award DP200101893. C.W. acknowledges funding from the Villum Fonden related to Grant No. 16498.

Funding Information:
C.G.P. and M.J.S. acknowledge support from the Australian Research Council Discovery Project scheme under award DP200101893. C.W. acknowledges funding from the Villum Fonden related to Grant No. 16498.

Publisher Copyright:
© 2022 Elsevier Inc.

Dokumenter og links

10.1016/bs.semsem.2022.04.002

Citationsformater

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title = "Theoretical formalisms for stimulated Brillouin scattering",

abstract = "We present the theoretical formalism for Brillouin scattering, beginning with the equations for linear elasticity together with Maxwells equations, and ending with the equations of motion for the optical and acoustic envelope fields. The treatment presented here is based on the Hamiltonian for the opto-acoustic interaction, but we discuss other possible derivations, as well as alternate formulations that describe Brillouin phenomena. We cover the theory of Brillouin scattering in both waveguides and resonators, and present the equations for several typical settings in each case. An Appendix gives a brief introduction to linear elasticity theory for optical physicists.",

keywords = "Brillouin derivation, Brillouin resonators, Brillouin waveguides, Equations of motion, Modeling, Theory of Brillouin scattering",

author = "Christian Wolff and Poulton, {Christopher G.} and Steel, {Michael J.} and Gustavo Wiederhecker",

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

year = "2022",

doi = "10.1016/bs.semsem.2022.04.002",

language = "English",

isbn = "9780323989299",

series = "Semiconductors and Semimetals",

publisher = "Academic Press",

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Theoretical formalisms for stimulated Brillouin scattering. / Wolff, Christian; Poulton, Christopher G.; Steel, Michael J. et al.
Brillouin Scattering Part 1. red. / Benjamin J. Eggleton; Michael J. Steel; Christopher G. Poulton. Academic Press, 2022. s. 27-91 (Semiconductors and Semimetals, Bind 109).

Publikation: Kapitel i bog/rapport/konference-proceeding › Kapitel i bog › Forskning › peer review

TY - CHAP

T1 - Theoretical formalisms for stimulated Brillouin scattering

AU - Wolff, Christian

AU - Poulton, Christopher G.

AU - Steel, Michael J.

AU - Wiederhecker, Gustavo

PY - 2022

Y1 - 2022

N2 - We present the theoretical formalism for Brillouin scattering, beginning with the equations for linear elasticity together with Maxwells equations, and ending with the equations of motion for the optical and acoustic envelope fields. The treatment presented here is based on the Hamiltonian for the opto-acoustic interaction, but we discuss other possible derivations, as well as alternate formulations that describe Brillouin phenomena. We cover the theory of Brillouin scattering in both waveguides and resonators, and present the equations for several typical settings in each case. An Appendix gives a brief introduction to linear elasticity theory for optical physicists.

AB - We present the theoretical formalism for Brillouin scattering, beginning with the equations for linear elasticity together with Maxwells equations, and ending with the equations of motion for the optical and acoustic envelope fields. The treatment presented here is based on the Hamiltonian for the opto-acoustic interaction, but we discuss other possible derivations, as well as alternate formulations that describe Brillouin phenomena. We cover the theory of Brillouin scattering in both waveguides and resonators, and present the equations for several typical settings in each case. An Appendix gives a brief introduction to linear elasticity theory for optical physicists.

KW - Brillouin derivation

KW - Brillouin resonators

KW - Brillouin waveguides

KW - Equations of motion

KW - Modeling

KW - Theory of Brillouin scattering

U2 - 10.1016/bs.semsem.2022.04.002

DO - 10.1016/bs.semsem.2022.04.002

M3 - Book chapter

AN - SCOPUS:85132859060

SN - 9780323989299

T3 - Semiconductors and Semimetals

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EP - 91

BT - Brillouin Scattering Part 1

A2 - Eggleton, Benjamin J.

A2 - Steel, Michael J.

A2 - Poulton, Christopher G.

PB - Academic Press

ER -

Theoretical formalisms for stimulated Brillouin scattering

Abstract

Bibliografisk note

Dokumenter og links

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Citationsformater