Time evolution of parametric instability in large-scale
  gravitational-wave interferometers

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Abstract

We present a study of three-mode parametric instability in large-scale gravitational-wave detectors. Previous work used a linearised model to study the onset of instability. This paper presents a non-linear study of this phenomenon, which shows that the initial stage of exponential rise of the amplitudes of a higher order optical mode and the mechanical internal mode of the mirror is followed by a saturation phase, in which all three participating modes reach a new equilibrium state with constant oscillation amplitudes. Results suggest that stable operation of interferometers may be possible in the presence of such instabilities, thereby simplifying the task of suppression.

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Most cited references 6

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Considerations on parametric instability in Fabry–Perot interferometer

William Kells, Erika D'Ambrosio (2002)

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A General Approach to Optomechanical Parametric Instabilities

Matthew Evans (2010)

We present a simple feedback description of parametric instabilities which can be applied to a variety of optical systems. Parametric instabilities are of particular interest to the field of gravitational-wave interferometry where high mechanical quality factors and a large amount of stored optical power have the potential for instability. In our use of Advanced LIGO as an example application, we find that parametric instabilities, if left unaddressed, present a potential threat to the stability of high-power operation.

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Analysis of Parametric Oscillatory Instability in Signal Recycled LIGO Interferometer

S. Vyatchanin, V Braginsky, A. Gurkovsky … (2006)

We present the analysis of undesirable effect of parametric oscillatory instability in signal recycled LIGO interferometer. The basis for this effect is the excitation of the additional (Stokes) optical mode, with frequency \(\omega_1\), and the mirror elastic mode, with frequency \(\omega_m\), when optical energy stored in the main FP cavity mode, with frequency \(\omega_0\), exceeds the certain threshold and the frequencies are related as \(\omega_0\simeq \omega_1+\omega_m\). We show that possibility of parametric instability in this interferometer is relatively small due to stronger sensitivity to detuning. We propose to ``scan'' the frequency range where parametric instability may take place varying the position of signal recycling mirror.

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Author and article information

Journal

Publication date Created: 2014-09-10

Publication date Updated: 2014-12-06

Article

DOI: 10.1103/PhysRevD.90.122008

ArXiV ID: 1409.3284

SO-VID: b7ae99bf-8adb-4835-919e-f005a6f44d4b

License:

http://creativecommons.org/licenses/publicdomain/

History

Custom metadata

Journal reference Phys. Rev. D 90, 122008 (2014)

Comments 11 pages, 7 figures.Version 3 features added fig. 4 and refined discussion on non-linear input-output relations for 3-mode parametric system above the threshold, given in Sec. V

Categories gr-qc astro-ph.IM physics.ins-det physics.optics

ScienceOpen disciplines: General relativity & Quantum cosmology,Technical & Applied physics,Optical materials & Optics,Instrumentation & Methods for astrophysics

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ScienceOpen disciplines: General relativity & Quantum cosmology, Technical & Applied physics, Optical materials & Optics, Instrumentation & Methods for astrophysics