Observation of three-mode parametric instability

X. Chen; C. Zhao; S. Danilishin; L. Ju; D. Blair; H. Wang; S.P. Vyatchanin; C. Molinelli; A. Kuhn; S. Gras; T. Briant; P.F. Cohadon; A. Heidmann; I. Roch-Jeune; R. Flaminio; C. Michel; L. Pinard

doi:10.1103/PhysRevA.91.033832

Observation of three-mode parametric instability

X. Chen^*, C. Zhao, S. Danilishin, L. Ju, D. Blair, H. Wang, S.P. Vyatchanin, C. Molinelli, A. Kuhn, S. Gras, T. Briant, P.F. Cohadon, A. Heidmann, I. Roch-Jeune, R. Flaminio, C. Michel, L. Pinard

^*Corresponding author for this work

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

Abstract

Three-mode parametric interactions occur in triply resonant optomechanical systems: Photons from an optical pump mode are coherently scattered to a high-order mode by mechanical motion of the cavity mirrors, and these modes resonantly interact via radiation pressure force when some conditions are met. They can either pump energy into acoustic modes, leading to parametric instability, or extract mechanical energy, leading to optomechanical cooling. Such effects are predicted to occur in long baseline advanced gravitational-wave detectors, possibly jeopardizing their stable operation. We have demonstrated both three-mode cooling and amplification in two different three-mode optomechanical systems. We report an observation of the three-mode parametric instability in a free-space Fabry-Perot cavity, with ring-up amplitude saturation.

Original language	English
Article number	033832
Number of pages	9
Journal	Physical Review A
Volume	91
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevA.91.033832
Publication status	Published - 26 Mar 2015
Externally published	Yes

Keywords

RECYCLED LIGO INTERFEROMETER
FABRY-PEROT-INTERFEROMETER
QUANTUM GROUND-STATE
OSCILLATORY INSTABILITY
MODE

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title = "Observation of three-mode parametric instability",

abstract = "Three-mode parametric interactions occur in triply resonant optomechanical systems: Photons from an optical pump mode are coherently scattered to a high-order mode by mechanical motion of the cavity mirrors, and these modes resonantly interact via radiation pressure force when some conditions are met. They can either pump energy into acoustic modes, leading to parametric instability, or extract mechanical energy, leading to optomechanical cooling. Such effects are predicted to occur in long baseline advanced gravitational-wave detectors, possibly jeopardizing their stable operation. We have demonstrated both three-mode cooling and amplification in two different three-mode optomechanical systems. We report an observation of the three-mode parametric instability in a free-space Fabry-Perot cavity, with ring-up amplitude saturation.",

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author = "X. Chen and C. Zhao and S. Danilishin and L. Ju and D. Blair and H. Wang and S.P. Vyatchanin and C. Molinelli and A. Kuhn and S. Gras and T. Briant and P.F. Cohadon and A. Heidmann and I. Roch-Jeune and R. Flaminio and C. Michel and L. Pinard",

year = "2015",

month = mar,

day = "26",

doi = "10.1103/PhysRevA.91.033832",

language = "English",

volume = "91",

journal = "Physical Review A",

issn = "1050-2947",

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TY - JOUR

T1 - Observation of three-mode parametric instability

AU - Chen, X.

AU - Zhao, C.

AU - Danilishin, S.

AU - Ju, L.

AU - Blair, D.

AU - Wang, H.

AU - Vyatchanin, S.P.

AU - Molinelli, C.

AU - Kuhn, A.

AU - Gras, S.

AU - Briant, T.

AU - Cohadon, P.F.

AU - Heidmann, A.

AU - Roch-Jeune, I.

AU - Flaminio, R.

AU - Michel, C.

AU - Pinard, L.

PY - 2015/3/26

Y1 - 2015/3/26

N2 - Three-mode parametric interactions occur in triply resonant optomechanical systems: Photons from an optical pump mode are coherently scattered to a high-order mode by mechanical motion of the cavity mirrors, and these modes resonantly interact via radiation pressure force when some conditions are met. They can either pump energy into acoustic modes, leading to parametric instability, or extract mechanical energy, leading to optomechanical cooling. Such effects are predicted to occur in long baseline advanced gravitational-wave detectors, possibly jeopardizing their stable operation. We have demonstrated both three-mode cooling and amplification in two different three-mode optomechanical systems. We report an observation of the three-mode parametric instability in a free-space Fabry-Perot cavity, with ring-up amplitude saturation.

AB - Three-mode parametric interactions occur in triply resonant optomechanical systems: Photons from an optical pump mode are coherently scattered to a high-order mode by mechanical motion of the cavity mirrors, and these modes resonantly interact via radiation pressure force when some conditions are met. They can either pump energy into acoustic modes, leading to parametric instability, or extract mechanical energy, leading to optomechanical cooling. Such effects are predicted to occur in long baseline advanced gravitational-wave detectors, possibly jeopardizing their stable operation. We have demonstrated both three-mode cooling and amplification in two different three-mode optomechanical systems. We report an observation of the three-mode parametric instability in a free-space Fabry-Perot cavity, with ring-up amplitude saturation.

KW - RECYCLED LIGO INTERFEROMETER

KW - FABRY-PEROT-INTERFEROMETER

KW - QUANTUM GROUND-STATE

KW - OSCILLATORY INSTABILITY

KW - MODE

U2 - 10.1103/PhysRevA.91.033832

DO - 10.1103/PhysRevA.91.033832

M3 - Article

SN - 1050-2947

VL - 91

JO - Physical Review A

JF - Physical Review A

IS - 3

M1 - 033832

ER -

Observation of three-mode parametric instability

Abstract

Keywords

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