Unveiling the gravitational universe at μ-Hz frequencies

Unveiling the gravitational universe at μ-Hz frequencies

We propose a space-based interferometer surveying the gravitational wave (GW) sky in the milli-Hz to μ-Hz frequency range. By the 2040s, the μ-Hz frequency band, bracketed in between the Laser Interferometer Space Antenna (LISA) and pulsar timing arrays, will constitute the largest gap in the covera...

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Veröffentlicht in:Experimental astronomy 2021-06, Vol.51 (3), p.1333-1383
Hauptverfasser: Sesana, Alberto, Korsakova, Natalia, Sedda, Manuel Arca, Baibhav, Vishal, Barausse, Enrico, Barke, Simon, Berti, Emanuele, Bonetti, Matteo, Capelo, Pedro R., Caprini, Chiara, Garcia-Bellido, Juan, Haiman, Zoltan, Jani, Karan, Jennrich, Oliver, Johansson, Peter H., Khan, Fazeel Mahmood, Korol, Valeriya, Lamberts, Astrid, Lupi, Alessandro, Mangiagli, Alberto, Mayer, Lucio, Nardini, Germano, Pacucci, Fabio, Petiteau, Antoine, Raccanelli, Alvise, Rajendran, Surjeet, Regan, John, Shao, Lijing, Spallicci, Alessandro, Tamanini, Nicola, Volonteri, Marta, Warburton, Niels, Wong, Kaze, Zumalacarregui, Miguel
Format: Artikel
Sprache:eng
Schlagworte:
Antenna arrays
Astronomy
Astrophysics
Binary stars
Black holes
Chemistry and Earth Sciences
Computer Science
Cosmology
Frequencies
Frequency ranges
Gravitational waves
Interferometers
LISA (antenna)
Observations and Techniques
Original Article
Physics
Physics and Astronomy
Pulsars
Red shift
Sciences of the Universe
Signal to noise ratio
Solar neighborhood
Statistics for Engineering
Universe
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Beschreibung
Zusammenfassung:We propose a space-based interferometer surveying the gravitational wave (GW) sky in the milli-Hz to μ-Hz frequency range. By the 2040s, the μ-Hz frequency band, bracketed in between the Laser Interferometer Space Antenna (LISA) and pulsar timing arrays, will constitute the largest gap in the coverage of the astrophysically relevant GW spectrum. Yet many outstanding questions related to astrophysics and cosmology are best answered by GW observations in this band. We show that a μ-Hz GW detector will be a truly overarching observatory for the scientific community at large, greatly extending the potential of LISA. Conceived to detect massive black hole binaries from their early inspiral with high signal-to-noise ratio, and low-frequency stellar binaries in the Galaxy, this instrument will be a cornerstone for multimessenger astronomy from the solar neighbourhood to the high-redshift Universe.
ISSN:0922-6435
1572-9508
DOI:10.1007/s10686-021-09709-9