Optomechanical Cavity with a Buckled Mirror

D. Yuvaraj; M. B. Kadam; Oleg Shtempluck; Eyal Buks

Optomechanical Cavity with a Buckled Mirror

D. Yuvaraj, M. B. Kadam, Oleg Shtempluck, Eyal Buks

Electrical and Computer Engineering

Technion - Israel Institute of Technology

Research output: Working paper › Preprint

Abstract

We study an optomechanical cavity, in which a buckled suspended beam serves as a mirror. The mechanical resonance frequency of the beam obtains a minimum value near the buckling temperature. Contrary to the common case, in which self-excited oscillations of the suspended mirror are optically induced by injecting blue detuned laser light, in our case self-excited oscillations are observed with red detuned light. These observations are attributed to a retarded thermal (i.e. bolometric) force acting on the buckled mirror in the inwards direction (i.e. towards to other mirror). With relatively high laser power other interesting effects are observed including period doubling of self-excited oscillations and intermode coupling.

Original language	English
State	Published - 4 Jul 2012

Keywords

cond-mat.other
physics.optics

Access to Document

1207.0947v1

Cite this

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title = "Optomechanical Cavity with a Buckled Mirror",

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AU - Buks, Eyal

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N2 - We study an optomechanical cavity, in which a buckled suspended beam serves as a mirror. The mechanical resonance frequency of the beam obtains a minimum value near the buckling temperature. Contrary to the common case, in which self-excited oscillations of the suspended mirror are optically induced by injecting blue detuned laser light, in our case self-excited oscillations are observed with red detuned light. These observations are attributed to a retarded thermal (i.e. bolometric) force acting on the buckled mirror in the inwards direction (i.e. towards to other mirror). With relatively high laser power other interesting effects are observed including period doubling of self-excited oscillations and intermode coupling.

AB - We study an optomechanical cavity, in which a buckled suspended beam serves as a mirror. The mechanical resonance frequency of the beam obtains a minimum value near the buckling temperature. Contrary to the common case, in which self-excited oscillations of the suspended mirror are optically induced by injecting blue detuned laser light, in our case self-excited oscillations are observed with red detuned light. These observations are attributed to a retarded thermal (i.e. bolometric) force acting on the buckled mirror in the inwards direction (i.e. towards to other mirror). With relatively high laser power other interesting effects are observed including period doubling of self-excited oscillations and intermode coupling.

KW - cond-mat.other

KW - physics.optics

M3 - نسخة اولية

BT - Optomechanical Cavity with a Buckled Mirror

ER -