ET候选站点记录的局部噪声对ET三角结构CBC引力波信号信噪比的影响

IF 3.7 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Classical and Quantum Gravity Pub Date : 2025-07-21 DOI:10.1088/1361-6382/aded67

Matteo Di Giovanni, Davide Rozza, Rosario De Rosa, Enrico Calloni, Domenico D’Urso, Luca Naticchioni, Annalisa Allocca, Giovanni Luca Cardello, Alessandro Cardini, Andrea Contu, Giovanni Diaferia, Luciano Errico, Carlo Giunchi, Jan Harms, Irene Molinari, Marco Olivieri, Piero Rapagnani, Valeria Sipala, Lucia Trozzo and Fulvio Ricci

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引用次数: 0

摘要

研究了未来第三代引力波（GW）探测器爱因斯坦望远镜（ET）中位置相关噪声对紧凑二元聚结（CBC）信号信噪比的影响。目前，ET的设计正在推动科学界利用其设计的灵敏度曲线，研究其在已知和可能意想不到的GW信号方面的科学潜力。但是，局部环境噪声可能会影响低频ET的灵敏度，从而影响CBC信号的低频信噪比。因此，我们研究了环境噪声对两个候选地ET灵敏度曲线的影响——意大利撒丁岛和荷兰-比利时边境的欧洲默兹-莱茵河（EMR）——并推断了对ET灵敏度曲线的影响以及低频CBC信号的信噪比是如何受到影响的。我们发现撒丁岛显示的结果与设计案例相当，如果不是更好的话。另一方面，环境噪声对当前Terziet EMR灵敏度曲线造成较高的信噪比性能退化。

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The impact of local noise recorded at the ET candidate sites on the signal to noise ratio of CBC gravitational wave signals for the ET triangle configuration

We present an evaluation of how site dependent noise can affect the signal to noise ratio (SNR) of compact binary coalescence (CBC) signals in the future 3rd generation gravitational wave (GW) detector Einstein telescope (ET). The design of ET is currently pushing the scientific community to study its scientific potential with respect to known, and possibly unexpected, GW signals using its design sensitivity curves. However, local ambient noise may have an impact on the ET sensitivity at low frequency and therefore affect the SNR of CBC signals at low frequency. Therefore, we study the impact of ambient noise on the ET sensitivity curve at the two sites candidate to host ET—Sardinia, in Italy, and the Euregio Meuse–Rhine (EMR) at the Netherlands–Belgium border—and infer the impact on the ET sensitivity curve and how the SNR of CBC signals at low frequencies is affected. We find that Sardinia shows results which are on par, if not better, than the design case. On the other hand, ambient noise for the current EMR sensitivity curve in Terziet causes a higher degradation of the SNR performances.

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来源期刊

Classical and Quantum Gravity 物理-天文与天体物理

CiteScore

7.00

自引率

8.60%

发文量

301

审稿时长

2-4 weeks

期刊介绍： Classical and Quantum Gravity is an established journal for physicists, mathematicians and cosmologists in the fields of gravitation and the theory of spacetime. The journal is now the acknowledged world leader in classical relativity and all areas of quantum gravity.