Spectra of mechanical cavity modes in distributed Bragg reflector based vertical GaAs resonators

S. Anguiano; G. Rozas; A. E. Bruchhausen; A. Fainstein; B. Jusserand; P. Senellart; A. Lemaître

doi:10.1103/PhysRevB.90.045314

Spectra of mechanical cavity modes in distributed Bragg reflector based vertical GaAs resonators

S. Anguiano
, G. Rozas
, A. E. Bruchhausen
, A. Fainstein
, B. Jusserand
, P. Senellart
, A. Lemaître

Instituto Balseiro
CNRS, UMR 7588, INSP
Centre de Nanosciences et de Nanotechnologies

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

Abstract

Distributed Bragg reflector based semiconductor resonators constitute paradigmatic systems where cavity optomechanical and optoelectronic phenomena can be simultaneously active in the same device. High GHz range mechanical frequencies and ultrastrong optomechanical couplings are additional attractive features for applications. We report here a detailed spectroscopic study of the fundamental optomechanical resonances of such a device. The existent challenge to study vibrational frequencies that are above the bandwidth of current electronics is solved using a purposely made tandem Fabry-Perot-triple spectrometer. A full theoretical description of the Raman process including electronic, vibrational, and optical confinement is presented to describe the experiments. These results open the path for the demonstration of polariton optomechanical phenomena in these devices.

Original language	English
Article number	045314
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	90
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.90.045314
Publication status	Published - 30 Jul 2014
Externally published	Yes

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10.1103/PhysRevB.90.045314

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abstract = "Distributed Bragg reflector based semiconductor resonators constitute paradigmatic systems where cavity optomechanical and optoelectronic phenomena can be simultaneously active in the same device. High GHz range mechanical frequencies and ultrastrong optomechanical couplings are additional attractive features for applications. We report here a detailed spectroscopic study of the fundamental optomechanical resonances of such a device. The existent challenge to study vibrational frequencies that are above the bandwidth of current electronics is solved using a purposely made tandem Fabry-Perot-triple spectrometer. A full theoretical description of the Raman process including electronic, vibrational, and optical confinement is presented to describe the experiments. These results open the path for the demonstration of polariton optomechanical phenomena in these devices.",

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AU - Anguiano, S.

AU - Rozas, G.

AU - Bruchhausen, A. E.

AU - Fainstein, A.

AU - Jusserand, B.

AU - Senellart, P.

AU - Lemaître, A.

PY - 2014/7/30

Y1 - 2014/7/30

N2 - Distributed Bragg reflector based semiconductor resonators constitute paradigmatic systems where cavity optomechanical and optoelectronic phenomena can be simultaneously active in the same device. High GHz range mechanical frequencies and ultrastrong optomechanical couplings are additional attractive features for applications. We report here a detailed spectroscopic study of the fundamental optomechanical resonances of such a device. The existent challenge to study vibrational frequencies that are above the bandwidth of current electronics is solved using a purposely made tandem Fabry-Perot-triple spectrometer. A full theoretical description of the Raman process including electronic, vibrational, and optical confinement is presented to describe the experiments. These results open the path for the demonstration of polariton optomechanical phenomena in these devices.

AB - Distributed Bragg reflector based semiconductor resonators constitute paradigmatic systems where cavity optomechanical and optoelectronic phenomena can be simultaneously active in the same device. High GHz range mechanical frequencies and ultrastrong optomechanical couplings are additional attractive features for applications. We report here a detailed spectroscopic study of the fundamental optomechanical resonances of such a device. The existent challenge to study vibrational frequencies that are above the bandwidth of current electronics is solved using a purposely made tandem Fabry-Perot-triple spectrometer. A full theoretical description of the Raman process including electronic, vibrational, and optical confinement is presented to describe the experiments. These results open the path for the demonstration of polariton optomechanical phenomena in these devices.

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

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ER -

Spectra of mechanical cavity modes in distributed Bragg reflector based vertical GaAs resonators

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