Improved optomechanical disk resonator sitting on a pedestal mechanical shield

Dac Trung Nguyen; William Hease; Christopher Baker; Eduardo Gil-Santos; Pascale Senellart; Aristide Lemaître; Sara Ducci; Giuseppe Leo; Ivan Favero

doi:10.1088/1367-2630/17/2/023016

Improved optomechanical disk resonator sitting on a pedestal mechanical shield

Dac Trung Nguyen
, William Hease
, Christopher Baker
, Eduardo Gil-Santos
, Pascale Senellart
, Aristide Lemaître
, Sara Ducci
, Giuseppe Leo
, Ivan Favero

École Polytechnique

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

Abstract

We experimentally demonstrate the controlled enhancement of the mechanical quality factor Q of gallium arsenide disk optomechanical resonators. Disks vibrating at 1.3 GHz with a mechanical shield integrated in their pedestal show a Q improvement by a factor 10-16. The structure is modeled numerically and different modes of vibration are observed, which shed light on the Q enhancement mechanism. An optimized double-disk geometry is presented that promises Q above the million for a large parameter range.

Original language	English
Article number	023016
Journal	New Journal of Physics
Volume	17
DOIs	https://doi.org/10.1088/1367-2630/17/2/023016
Publication status	Published - 4 Feb 2015

Keywords

disk resonator
gallium arsenide
mechanical shield
optomechanics
quality factor

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10.1088/1367-2630/17/2/023016

Cite this

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title = "Improved optomechanical disk resonator sitting on a pedestal mechanical shield",

abstract = "We experimentally demonstrate the controlled enhancement of the mechanical quality factor Q of gallium arsenide disk optomechanical resonators. Disks vibrating at 1.3 GHz with a mechanical shield integrated in their pedestal show a Q improvement by a factor 10-16. The structure is modeled numerically and different modes of vibration are observed, which shed light on the Q enhancement mechanism. An optimized double-disk geometry is presented that promises Q above the million for a large parameter range.",

keywords = "disk resonator, gallium arsenide, mechanical shield, optomechanics, quality factor",

author = "Nguyen, \{Dac Trung\} and William Hease and Christopher Baker and Eduardo Gil-Santos and Pascale Senellart and Aristide Lema{\^i}tre and Sara Ducci and Giuseppe Leo and Ivan Favero",

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T1 - Improved optomechanical disk resonator sitting on a pedestal mechanical shield

AU - Nguyen, Dac Trung

AU - Hease, William

AU - Baker, Christopher

AU - Gil-Santos, Eduardo

AU - Senellart, Pascale

AU - Lemaître, Aristide

AU - Ducci, Sara

AU - Leo, Giuseppe

AU - Favero, Ivan

PY - 2015/2/4

Y1 - 2015/2/4

N2 - We experimentally demonstrate the controlled enhancement of the mechanical quality factor Q of gallium arsenide disk optomechanical resonators. Disks vibrating at 1.3 GHz with a mechanical shield integrated in their pedestal show a Q improvement by a factor 10-16. The structure is modeled numerically and different modes of vibration are observed, which shed light on the Q enhancement mechanism. An optimized double-disk geometry is presented that promises Q above the million for a large parameter range.

AB - We experimentally demonstrate the controlled enhancement of the mechanical quality factor Q of gallium arsenide disk optomechanical resonators. Disks vibrating at 1.3 GHz with a mechanical shield integrated in their pedestal show a Q improvement by a factor 10-16. The structure is modeled numerically and different modes of vibration are observed, which shed light on the Q enhancement mechanism. An optimized double-disk geometry is presented that promises Q above the million for a large parameter range.

KW - disk resonator

KW - gallium arsenide

KW - mechanical shield

KW - optomechanics

KW - quality factor

UR - https://www.scopus.com/pages/publications/84924252647

U2 - 10.1088/1367-2630/17/2/023016

DO - 10.1088/1367-2630/17/2/023016

M3 - Article

AN - SCOPUS:84924252647

SN - 1367-2630

VL - 17

JO - New Journal of Physics

JF - New Journal of Physics

M1 - 023016

ER -

Improved optomechanical disk resonator sitting on a pedestal mechanical shield

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Keywords

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