Gravitational Waves From Binary Black Hole Mergers: Modeling and Observations

Patricia Schmidt

doi:10.3389/fspas.2020.00028

Gravitational Waves From Binary Black Hole Mergers: Modeling and Observations

Patricia Schmidt

Physics and Astronomy

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

Abstract

Only a few years after the first detection of gravitational waves from coalescing stellar-mass black holes, the field of gravitational-wave astronomy is now firmly established after the detection of several more. These discoveries have opened up a new window onto the universe, which allows us to probe gravity and astrophysics in some of the most extreme environments in the universe. The detection and, in particular, the subsequent inference of the binaries' properties rely heavily on theoretical models of the signals. In this review, we first discuss the techniques used to model the gravitational-wave signals from coalescing black holes, before we summarize the observations made to date. We conclude with a brief outlook onto the prospects for binary black hole observations in the future.

Original language	English
Article number	28
Journal	Frontiers in Astronomy and Space Sciences
Volume	7
DOIs	https://doi.org/10.3389/fspas.2020.00028
Publication status	Published - 16 Jun 2020

Bibliographical note

Funding Information:
PS acknowledges Dutch Research Council (NWO) Veni Grant No. 680-47-460.

Publisher Copyright:
© 2020 Schmidt.

Keywords

Black holes
Compact binaries
Gravitational waves
Modeling
Observations

ASJC Scopus subject areas

Astronomy and Astrophysics

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10.3389/fspas.2020.00028

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title = "Gravitational Waves From Binary Black Hole Mergers: Modeling and Observations",

abstract = "Only a few years after the first detection of gravitational waves from coalescing stellar-mass black holes, the field of gravitational-wave astronomy is now firmly established after the detection of several more. These discoveries have opened up a new window onto the universe, which allows us to probe gravity and astrophysics in some of the most extreme environments in the universe. The detection and, in particular, the subsequent inference of the binaries' properties rely heavily on theoretical models of the signals. In this review, we first discuss the techniques used to model the gravitational-wave signals from coalescing black holes, before we summarize the observations made to date. We conclude with a brief outlook onto the prospects for binary black hole observations in the future.",

keywords = "Black holes, Compact binaries, Gravitational waves, Modeling, Observations",

author = "Patricia Schmidt",

note = "Funding Information: PS acknowledges Dutch Research Council (NWO) Veni Grant No. 680-47-460. Publisher Copyright: {\textcopyright} 2020 Schmidt.",

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language = "English",

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AB - Only a few years after the first detection of gravitational waves from coalescing stellar-mass black holes, the field of gravitational-wave astronomy is now firmly established after the detection of several more. These discoveries have opened up a new window onto the universe, which allows us to probe gravity and astrophysics in some of the most extreme environments in the universe. The detection and, in particular, the subsequent inference of the binaries' properties rely heavily on theoretical models of the signals. In this review, we first discuss the techniques used to model the gravitational-wave signals from coalescing black holes, before we summarize the observations made to date. We conclude with a brief outlook onto the prospects for binary black hole observations in the future.

KW - Black holes

KW - Compact binaries

KW - Gravitational waves

KW - Modeling

KW - Observations

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JO - Frontiers in Astronomy and Space Sciences

JF - Frontiers in Astronomy and Space Sciences

M1 - 28

ER -

Gravitational Waves From Binary Black Hole Mergers: Modeling and Observations

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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