Neutron displacement noise-free interferometer for gravitational-wave detection

Neutron displacement noise-free interferometer for gravitational-wave detection

An interferometer design that cancels all displacement noises of its test masses and maintains a gravitational-wave (GW) signal by combining multiple detector signals is called a displacement noise-free interferometer (DFI). The idea has been considered previously for a laser interferometer. However...

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Veröffentlicht in:arXiv.org 2022-05
Hauptverfasser: Nishizawa, Atsushi, Iwaguchi, Shoki, Chen, Yanbei, Morimoto, Taigen, Ishikawa, Tomohiro, Wu, Bin, Watanabe, Izumi, Kawasaki, Yuki, Shimizu, Ryuma, Shimizu, Hirohiko, Kitaguchi, Masaaki, Michimura, Yuta, Kawamura, Seiji
Format: Artikel
Sprache:eng
Schlagworte:
Displacement
Frequencies
Gravitational waves
Interferometers
Lasers
Light speed
Neutrons
Physics - General Relativity and Quantum Cosmology
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Beschreibung
Zusammenfassung:An interferometer design that cancels all displacement noises of its test masses and maintains a gravitational-wave (GW) signal by combining multiple detector signals is called a displacement noise-free interferometer (DFI). The idea has been considered previously for a laser interferometer. However, a limitation of a laser DFI is that its sensitive frequency band is too high for astrophysical GW sources, \(\sim 10^5\,{\rm Hz}\) even for a kilometer-sized interferometer. To circumvent this limitation, in this paper, we propose a neutron DFI, in which neutrons are used instead of light. Since neutrons have velocities much lower than the speed of light, the sensitive frequency band of a neutron DFI can be lowered down to \(\sim 10^{-1}\,{\rm Hz}\). Therefore, a neutron DFI can be utilized for detecting GWs that are inaccessible by an ordinary laser interferometer on the ground.
ISSN:2331-8422
DOI:10.48550/arxiv.2112.11982