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Paper detail

Identifying multichannel coherent couplings and causal relationships in gravitational wave detectors

The gravitational-wave detector is a complex and sensitive collection of advanced instruments that are impacted not only by mechanical/electronics systems but also by the surrounding environment. Hence, it is of great importance to classify and mitigate noises to detect gravitational-wave signals by using information from many auxiliary channels related to such devices and surroundings. This improves the signal-to-noise ratio and reduces false alarms from coincident loud events. For this reason, it is essential for identifying coherent relationships between complex channels. This study presents a way of identifying (non-) linear couplings between associated channels by using the method of correlation coefficients. And we show that the method can be applied to practical problems in the gravitational-wave detector, such as noises by lightning strokes, air compressors vibrations, and noises caused by wind effects.

preprint2022arXivOpen access
Piljong JungSang Hoon OhYoung-Min KimEdwin J. SonTakaaki YokozawaTatsuki WashimiJohn J. Oh
astro-ph.IMgr-qcphysics.data-an
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Piljong JungSang Hoon OhYoung-Min KimEdwin J. SonTakaaki YokozawaTatsuki WashimiJohn J. Oh

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