A 6D interferometric inertial isolation system

Conor M. Mow-Lowry; Denis Martynov

doi:10.1088/1361-6382/ab4e01

A 6D interferometric inertial isolation system

Conor M. Mow-Lowry, Denis Martynov

Physics and Astronomy

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Abstract

We present a novel inertial-isolation scheme based on six degree-of-freedom (6D) interferometric sensing of a single reference mass. It is capable of reducing inertial motion by more than two orders of magnitude at 100\,mHz compared with what is achievable with state-of-the-art seismometers. This will enable substantial improvements in the low-frequency sensitivity of gravitational-wave detectors. The scheme is inherently two-stage, the reference mass is softly suspended within the platform to be isolated, which is itself suspended from the ground. The platform is held constant relative to the reference mass and this closed-loop control effectively transfers the low acceleration-noise of the reference mass to the platform. A high loop gain also reduces non-linear couplings and dynamic range requirements in the soft-suspension mechanics and the interferometric sensing.

Original language	English
Article number	245006
Journal	Classical and Quantum Gravity
Volume	36
Issue number	24
Early online date	15 Oct 2019
DOIs	https://doi.org/10.1088/1361-6382/ab4e01
Publication status	Published - 14 Nov 2019

Keywords

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

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Mow-Lowry_and_Martynov_A_6D_interferometric_inertial_isolation_system_Classical_and_Quantum_Gravity_2019Accepted author manuscript, 869 KBLicence: Creative Commons: Attribution-NoDerivs (CC BY-ND)

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AB - We present a novel inertial-isolation scheme based on six degree-of-freedom (6D) interferometric sensing of a single reference mass. It is capable of reducing inertial motion by more than two orders of magnitude at 100\,mHz compared with what is achievable with state-of-the-art seismometers. This will enable substantial improvements in the low-frequency sensitivity of gravitational-wave detectors. The scheme is inherently two-stage, the reference mass is softly suspended within the platform to be isolated, which is itself suspended from the ground. The platform is held constant relative to the reference mass and this closed-loop control effectively transfers the low acceleration-noise of the reference mass to the platform. A high loop gain also reduces non-linear couplings and dynamic range requirements in the soft-suspension mechanics and the interferometric sensing.

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KW - gr-qc

KW - physics.ins-det

U2 - 10.1088/1361-6382/ab4e01

DO - 10.1088/1361-6382/ab4e01

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JO - Classical and Quantum Gravity

JF - Classical and Quantum Gravity

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A 6D interferometric inertial isolation system

Abstract

Keywords

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