Premerger observation and characterization of massive black hole binaries

Gareth Cabourn Davies; Ian Harry; Michael J. Williams; Diganta Bandopadhyay; Leor Barack; Jean Baptiste Bayle; Charlie Hoy; Antoine Klein; Hannah Middleton; Christopher J. Moore; Laura Nuttall; Geraint Pratten; Alberto Vecchio; Graham Woan

doi:10.1103/PhysRevD.111.043045

Premerger observation and characterization of massive black hole binaries

Gareth Cabourn Davies^*, Ian Harry^*, Michael J. Williams^*, Diganta Bandopadhyay, Leor Barack, Jean Baptiste Bayle, Charlie Hoy, Antoine Klein, Hannah Middleton, Christopher J. Moore, Laura Nuttall, Geraint Pratten, Alberto Vecchio, Graham Woan

^*Corresponding author for this work

Institute of Cosmology & Gravitation

Research output: Contribution to journal › Article › peer-review

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Abstract

We demonstrate an end-to-end technique for observing and characterizing massive black hole binary signals before they merge with the LISA space-based gravitational-wave observatory. Our method uses a zero-latency whitening filter, originally designed for rapidly observing compact binary mergers in ground-based observatories, to be able to observe signals with no additional latency due to filter length. We show that with minimal computational cost, we are able to reliably observe signals as early as 14 days premerger as long as the signal has accrued a signal-to-noise ratio of at least 8 in the LISA data. We also demonstrate that this method can be used to characterize the source properties, providing early estimates of the source's merger time, chirp mass, and sky localization. Early observation and characterization of massive black holes is crucial to enable the possibility of rapid multimessenger observations, and to ensure that LISA can enter a protected operating period when the merger signal arrives.

Original language	English
Article number	043045
Number of pages	16
Journal	Physical Review D
Volume	111
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevD.111.043045
Publication status	Published - 21 Feb 2025

Keywords

UKRI
STFC
ST/X002225/1
ST/Y004876/1
ST/Y004906/1
ST/Y004922/1
ST/V002813/1
ST/X002071/1
MRC
MR/T01881X/1

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10.1103/PhysRevD.111.043045

Premerger observation and characterization of massive black hole binariesFinal published version, 1.52 MBLicence: CC BY

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title = "Premerger observation and characterization of massive black hole binaries",

abstract = "We demonstrate an end-to-end technique for observing and characterizing massive black hole binary signals before they merge with the LISA space-based gravitational-wave observatory. Our method uses a zero-latency whitening filter, originally designed for rapidly observing compact binary mergers in ground-based observatories, to be able to observe signals with no additional latency due to filter length. We show that with minimal computational cost, we are able to reliably observe signals as early as 14 days premerger as long as the signal has accrued a signal-to-noise ratio of at least 8 in the LISA data. We also demonstrate that this method can be used to characterize the source properties, providing early estimates of the source's merger time, chirp mass, and sky localization. Early observation and characterization of massive black holes is crucial to enable the possibility of rapid multimessenger observations, and to ensure that LISA can enter a protected operating period when the merger signal arrives.",

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AU - Harry, Ian

AU - Williams, Michael J.

AU - Bandopadhyay, Diganta

AU - Barack, Leor

AU - Bayle, Jean Baptiste

AU - Hoy, Charlie

AU - Klein, Antoine

AU - Middleton, Hannah

AU - Moore, Christopher J.

AU - Nuttall, Laura

AU - Pratten, Geraint

AU - Vecchio, Alberto

AU - Woan, Graham

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AB - We demonstrate an end-to-end technique for observing and characterizing massive black hole binary signals before they merge with the LISA space-based gravitational-wave observatory. Our method uses a zero-latency whitening filter, originally designed for rapidly observing compact binary mergers in ground-based observatories, to be able to observe signals with no additional latency due to filter length. We show that with minimal computational cost, we are able to reliably observe signals as early as 14 days premerger as long as the signal has accrued a signal-to-noise ratio of at least 8 in the LISA data. We also demonstrate that this method can be used to characterize the source properties, providing early estimates of the source's merger time, chirp mass, and sky localization. Early observation and characterization of massive black holes is crucial to enable the possibility of rapid multimessenger observations, and to ensure that LISA can enter a protected operating period when the merger signal arrives.

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Premerger observation and characterization of massive black hole binaries

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