当前引力波观测站在更高 kHz、MHz 和 GHz 频率下的光学灵敏度

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-09-04 DOI:arxiv-2409.03019

Roman Schnabel, Mikhail Korobko

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引用次数: 0

摘要

GEO 600、Kagra、LIGO 和 Virgo 是为了观测音频波段的引力波而建造的，在这一波段，预测的事件发生率最高，信噪比最大。目前，人们正在讨论可能产生更高频率信号的宇宙学假想来源。但不为人知的是，目前的干涉式全球变暖观测站拥有一个高光学灵敏度的频率梳，它包含了这些高频率的信号。在这里，我们根据光子射出噪声是主要噪声源这一合理假设，计算了正在运行的全球风暴观测站的高频噪声谱密度。我们解释了为什么当干涉仪臂的方向不垂直于全球大气环流的传播方向时，天文台谐振器的自由光谱范围的所有整数倍都能达到高灵敏度的基本物理学原理。关于高频全球瓦探测器新概念的建议，必须与这里介绍的高频灵敏度进行比较。

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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Optical sensitivities of current gravitational wave observatories at higher kHz, MHz and GHz frequencies

GEO 600, Kagra, LIGO, and Virgo were built to observe gravitational waves at frequencies in the audio band, where the highest event rates combined with the largest signal to noise ratios had been predicted. Currently, hypothetical sources of cosmological origin that could have produced signals at higher frequencies are under discussion. What is not widely known is that current interferometric GW observatories have a frequency comb of high optical sensitivity that encompasses these high frequencies. Here we calculate the high-frequency noise spectral densities of operating GW observatories under the justified assumption that photon shot noise is the dominant noise source. We explain the underlying physics of why high sensitivity is achieved for all integer multiples of the free spectral ranges of the observatory's resonators when an interferometer arm is not orientated perpendicular to the propagation direction of the GW. Proposals for new concepts of high-frequency GW detectors must be compared with the high-frequency sensitivities presented here.

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arXiv - PHYS - High Energy Physics - Experiment

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