Parametric instability in the neutron star extreme matter observatory

Author:

Pan JuntaoORCID,Zhang JueORCID,Blair CarlORCID,Jones Aaron WORCID,Zhao ChunnongORCID,Ju Li

Abstract

Abstract Parametric instability (PI), induced by the interaction between the cavity optical modes and acoustic modes of a mirror, is an inherent risk in interferometric gravitational wave detectors. The instability can result in exponential growth in acoustic mode amplitude and the saturation of detectors control systems. In this paper we analyse PI in the neutron star extreme matter observatory, a proposed high optical power (4.5 MW) detector, operating at cryogenic temperatures with silicon test masses (TMs), targeting high sensitivity between 1 and 4 kHz. Our results show that with current design parameters, approximately 16 unstable modes will arise per TM with maximum parametric gain ∼10. Varying the TM radius of curvature from the nominal values could eliminate PI, however not with current manufacture or actuator capability. PI mitigation will be required to suppress all unstable modes. This analysis identifies four optical modes and 16 acoustic modes dominating PI in NEMO paves the way for the design of PI mitigation strategies.

Funder

Australian Research Council

Publisher

IOP Publishing

Subject

Physics and Astronomy (miscellaneous)

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