Cryogenic properties of optomechanical silica microcavities

Arcizet, O.; Riviere, R.; Schliesser, A.; Anetsberger, G.; Kippenberg, Tobias

doi:10.1103/PhysRevA.80.021803

Arcizet, O.; Riviere, R.; Schliesser, A.; Anetsberger, G.; Kippenberg, Tobias

2009

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Abstract

We report the study of the optical and mechanical properties of high-Q fused silica microtoroidal resonators at cryogenic temperatures (down to 1.6 K). A thermally induced optical multistability is observed and theoretically described, originating from the reverse thermally induced optical frequency shift. Moreover the influence of structural defect states (two level fluctuators) on their mechanical properties is observed and probed at an unprecedentedly achieved low phonon number. The resulting implications for cavity optomechanics and studies of mechanical decoherence are also discussed.

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Title Cryogenic properties of optomechanical silica microcavities

Author(s) Arcizet, O. ; Riviere, R. ; Schliesser, A. ; Anetsberger, G. ; Kippenberg, Tobias

Published in Physical Review A

Volume 80

Issue 2

Pages 021803(R)

Date 2009

Keywords

Low-Temperatures; Radiation-Pressure; Vitreous Silica; Micromirror; Resonators

DOI https://doi.org/10.1103/PhysRevA.80.021803

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Laboratories LPQM

Record Appears in Scientific production and competences > STI - School of Engineering > IEM - Institut d'Electricité et de Microtechnique > LPQM - Laboratory of Photonics and Quantum Measurements (STI/SB)
Scientific production and competences > SB - School of Basic Sciences > IPHYS - Institute of Physics > LPQM - Laboratory of Photonics and Quantum Measurements (STI/SB)
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Record creation date 2010-11-30

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