Nonlinear optical diffraction by standing acoustic waves in a GaAs film

► We investigate nonlinear acousto-optical diffraction by standing acoustic waves in a GaAs crystalline film. ► We analyze second-harmonic nonlinear diffraction by longitudinal and transversal standing acoustic waves. ► Longitudinal standing acoustic waves only permit p-polarized nonlinear diffracti...

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Published inPhotonics and nanostructures Vol. 10; no. 4; pp. 400 - 408
Main Authors Shevchenko, N.A., Dadoenkova, N.N., Lyubchanskii, I.L., Bentivegna, F.F.L., Lee, Y.P., Rasing, Th
Format Journal Article Conference Proceeding
LanguageEnglish
Published Tokyo Elsevier B.V 01.10.2012
Elsevier
Subjects
Acoustics
Diffraction
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Gallium arsenide
Gallium arsenides
Modulated structures
Nanocomposites
Nanostructure
Nonlinear optical diffraction
Nonlinear optics
Nonlinearity
Optical susceptibility, hyperpolarizability
Optics
Physics
Polarization
Quadratic optical nonlinearity
Standing acoustic waves
Modulated structures
Nonlinear optical diffraction
Quadratic optical nonlinearity
Standing acoustic waves
Standing waves
Second harmonic
Nonlinear diffraction
Theoretical study
Numerical method
Nonlinear optics
Acoustic waves
III-V semiconductors
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Abstract ► We investigate nonlinear acousto-optical diffraction by standing acoustic waves in a GaAs crystalline film. ► We analyze second-harmonic nonlinear diffraction by longitudinal and transversal standing acoustic waves. ► Longitudinal standing acoustic waves only permit p-polarized nonlinear diffraction. ► Transversal standing acoustic waves allow all polarization combinations of incident and nonlinear diffracted light. ► Numerical calculations of nonlinear diffraction efficiencies are carried out. Second-order nonlinear optical diffraction by standing acoustic waves in a crystalline plate is theoretically investigated. A detailed analysis of the polarization state of the second-harmonic light diffracted by both longitudinal and transversal acoustic waves is carried out. It is shown that longitudinal standing acoustic waves only allow p-polarized nonlinear optical diffraction, irrespective of the incoming state of polarization, whereas transversal standing acoustic waves allow all possible combinations of incoming and diffracted polarization states. Numerical estimates of the relative intensities of nonlinearly diffracted radiation peaks are made for a GaAs plate.
AbstractList Second-order nonlinear optical diffraction by standing acoustic waves in a crystalline plate is theoretically investigated. A detailed analysis of the polarization state of the second-harmonic light diffracted by both longitudinal and transversal acoustic waves is carried out. It is shown that longitudinal standing acoustic waves only allow p-polarized nonlinear optical diffraction, irrespective of the incoming state of polarization, whereas transversal standing acoustic waves allow all possible combinations of incoming and diffracted polarization states. Numerical estimates of the relative intensities of nonlinearly diffracted radiation peaks are made for a GaAs plate.
► We investigate nonlinear acousto-optical diffraction by standing acoustic waves in a GaAs crystalline film. ► We analyze second-harmonic nonlinear diffraction by longitudinal and transversal standing acoustic waves. ► Longitudinal standing acoustic waves only permit p-polarized nonlinear diffraction. ► Transversal standing acoustic waves allow all polarization combinations of incident and nonlinear diffracted light. ► Numerical calculations of nonlinear diffraction efficiencies are carried out. Second-order nonlinear optical diffraction by standing acoustic waves in a crystalline plate is theoretically investigated. A detailed analysis of the polarization state of the second-harmonic light diffracted by both longitudinal and transversal acoustic waves is carried out. It is shown that longitudinal standing acoustic waves only allow p-polarized nonlinear optical diffraction, irrespective of the incoming state of polarization, whereas transversal standing acoustic waves allow all possible combinations of incoming and diffracted polarization states. Numerical estimates of the relative intensities of nonlinearly diffracted radiation peaks are made for a GaAs plate.
Second-order nonlinear optical diffraction by standing acoustic waves in a crystalline plate is theoretically investigated. A detailed analysis of the polarization state of the second-harmonic light diffracted by both waves is carried out. It is shown that longitudinal standing acoustic waves only allow p-polarized nonlinear optical diffraction, irrespective of the incoming state of polarization, whereas transversal standing acoustic waves allow all possible combinations of incoming and diffracted polarization states. Numerical estimates of the relative intensities of nonlinearly diffracted radiation peaks are made for a GaAs plate.
Author Rasing, Th
Dadoenkova, N.N.
Bentivegna, F.F.L.
Lyubchanskii, I.L.
Lee, Y.P.
Shevchenko, N.A.
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  surname: Rasing
  fullname: Rasing, Th
  organization: Institute for Molecules and Materials, Radboud University Nijmegen, Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands
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Cites_doi 10.1103/PhysRevLett.81.4136
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Issue 4
Keywords Modulated structures
Nonlinear optical diffraction
Quadratic optical nonlinearity
Standing acoustic waves
Standing waves
Second harmonic
Nonlinear diffraction
Theoretical study
Numerical method
Nonlinear optics
Acoustic waves
III-V semiconductors
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Snippet ► We investigate nonlinear acousto-optical diffraction by standing acoustic waves in a GaAs crystalline film. ► We analyze second-harmonic nonlinear...
Second-order nonlinear optical diffraction by standing acoustic waves in a crystalline plate is theoretically investigated. A detailed analysis of the...
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SubjectTerms Acoustics
Diffraction
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Gallium arsenide
Gallium arsenides
Modulated structures
Nanocomposites
Nanostructure
Nonlinear optical diffraction
Nonlinear optics
Nonlinearity
Optical susceptibility, hyperpolarizability
Optics
Physics
Polarization
Quadratic optical nonlinearity
Standing acoustic waves
Title Nonlinear optical diffraction by standing acoustic waves in a GaAs film
URI https://dx.doi.org/10.1016/j.photonics.2012.05.003
https://search.proquest.com/docview/1671385172
https://hal.science/hal-00938971
Volume 10
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