Dual balanced readout for scattered light noise mitigation in Michelson interferometers

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-09-06 DOI:arxiv-2409.04266

André Lohde, Daniel Voigt, Oliver Gerberding

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Abstract

Ground-based gravitational wave detectors use laser interferometry to detect the minuscule distance change between test masses caused by gravitational waves. Stray light that scatters back into the interferometer causes transient signals that can cover the same frequency range as a potential gravitational wave signal. Scattered light noise is a potentially limiting factor in current and future detectors thus making it relevant to find new ways to mitigate it. Here, we demonstrate experimentally a technique for the subtraction of scattered light noise from the displacement readout of a Michelson interferometer. It is based on using a balanced homodyne detector at both the symmetric and the antisymmetric port. While we have been able to demonstrate a noise reduction of \SI{13.2}{\decibel}, the readout scheme seems to be only limited by the associated noise couplings, with no theoretical limit to the scattered light suppression itself other than shot noise. We also discuss challenges for using the dual balanced homodyne detection scheme in more complex interferometer topologies, which could lead to improvements in scattered light noise mitigation of gravitational wave detectors.

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双平衡读数，用于降低迈克尔逊干涉仪的散射光噪声

地面引力波探测器利用激光干涉仪探测引力波引起的测试质量之间微小的距离变化。散射回干涉仪的杂散光会产生瞬态信号，其频率范围与潜在引力波信号的频率范围相同。散射光噪声是当前和未来探测器的一个潜在限制因素，因此需要找到新的方法来减少散射光噪声。在这里，我们通过实验演示了一种从迈克尔逊干涉仪的位移读出中减去散射光噪声的技术。该技术的基础是在对称和非对称端口使用平衡同调探测器。虽然我们已经能够证明噪声降低了\SI{13.2}{/decibel}，但读出方案似乎只受到相关噪声耦合的限制，而散射光抑制本身除了射出噪声之外没有理论限制。我们还讨论了在更复杂的干涉仪拓扑结构中使用双平衡同调探测方案所面临的挑战，这可能会导致引力波探测器散射光噪声抑制的改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Instrumentation and Detectors

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