Integration of high-performance compact interferometric sensors in a suspended interferometer

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-09-13 DOI:arxiv-2409.08843

Alexandra Mitchell, Johannes Lehmann, Philip Koch, Samuel Cooper, Jesse van Dongen, Leonid Prokhorov, Nathan Holland, Michele Valentini, Conor Mow-Lowry

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Abstract

Homodyne Quadrature Interferometers (HoQIs) are compact, low noise and high dynamic range displacement sensors designed for use in gravitational wave observatories. Their lower noise compared to the displacement sensors used at present makes them valuable for improving the seismic isolation in current and future detectors. This paper outlines the progression of this sensor from initial production and benchtop tests to in-vacuum static performance and installation in a gravitational wave detector prototype facility. A detailed design description is outlined, including the full signal and optical chain required for implementation in detectors. The measured in-vacuum static performance indicates a noise floor of $3-4\times10^{-13}m/\sqrt{\rm{Hz}}$ at 10Hz. Three HoQIs were installed on the beamsplitter suspension at the AEI 10m prototype. They measured motion of the intermediate mass across the entire bandwidth measured and showed minimal non-linearities and a good robustness to motion in unmeasured degrees of freedom, both important for practical use in dynamic systems such as seismic isolation.

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在悬挂式干涉仪中集成高性能紧凑型干涉传感器

同调正交干涉仪（HoQIs）是专为引力波观测站设计的紧凑型、低噪声和高动态范围位移传感器。与目前使用的位移传感器相比，HoQIs 的噪声更低，因此对提高当前和未来探测器的地震隔离性能非常有价值。本文概述了这种传感器从最初的生产和台式测试到真空静态性能以及安装在引力波探测器原型设施中的过程。详细的设计说明包括在探测器中实施所需的完整信号和光学链。测得的真空静态性能表明，10Hz 时的本底噪声为 3-4 times10^{-13}m/\sqrt\{rm{Hz}}$ 。在 AEI 10m 原型的分光镜悬架上安装了三个 HoQI。它们测量了中间质量在整个测量带宽内的运动，并显示出最小的非线性和对未测量自由度运动的良好鲁棒性，这两点对于地震隔离等动态系统的实际应用都很重要。

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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