GW250114: Testing Hawking's Area Law and the Kerr Nature of Black Holes

LIGO Scientific, Virgo, and KAGRA Collaborations

doi:10.1103/kw5g-d732

GW250114: Testing Hawking's Area Law and the Kerr Nature of Black Holes

LIGO Scientific, Virgo, and KAGRA Collaborations

Department of Physics

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

1 Scopus citations

Abstract

The gravitational-wave signal GW250114 was observed by the two LIGO detectors with a network matched-filter signal-to-noise ratio of 80. The signal was emitted by the coalescence of two black holes with near-equal masses m_{1}=33.6_{-0.8}^{+1.2}M_{⊙} and m_{2}=32.2_{-1.3}^{+0.8}M_{⊙}, and small spins χ_{1,2}≤0.26 (90% credibility) and negligible eccentricity e≤0.03. Postmerger data excluding the peak region are consistent with the dominant quadrupolar (ℓ=|m|=2) mode of a Kerr black hole and its first overtone. We constrain the modes' frequencies to ±30% of the Kerr spectrum, providing a test of the remnant's Kerr nature. We also examine Hawking's area law, also known as the second law of black hole mechanics, which states that the total area of the black hole event horizons cannot decrease with time. A range of analyses that exclude up to five of the strongest merger cycles confirm that the remnant area is larger than the sum of the initial areas to high credibility.

Original language	English
Pages (from-to)	111403
Number of pages	1
Journal	Physical Review Letters
Volume	135
Issue number	11
DOIs	https://doi.org/10.1103/kw5g-d732
State	Published - 12 Sep 2025

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10.1103/kw5g-d732

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@article{2cc816bd830047448fb6d179518c44f1,

title = "GW250114: Testing Hawking's Area Law and the Kerr Nature of Black Holes",

abstract = "The gravitational-wave signal GW250114 was observed by the two LIGO detectors with a network matched-filter signal-to-noise ratio of 80. The signal was emitted by the coalescence of two black holes with near-equal masses m\_\{1\}=33.6\_\{-0.8\}\textasciicircum{}\{+1.2\}M\_\{⊙\} and m\_\{2\}=32.2\_\{-1.3\}\textasciicircum{}\{+0.8\}M\_\{⊙\}, and small spins χ\_\{1,2\}≤0.26 (90\% credibility) and negligible eccentricity e≤0.03. Postmerger data excluding the peak region are consistent with the dominant quadrupolar (ℓ=|m|=2) mode of a Kerr black hole and its first overtone. We constrain the modes' frequencies to ±30\% of the Kerr spectrum, providing a test of the remnant's Kerr nature. We also examine Hawking's area law, also known as the second law of black hole mechanics, which states that the total area of the black hole event horizons cannot decrease with time. A range of analyses that exclude up to five of the strongest merger cycles confirm that the remnant area is larger than the sum of the initial areas to high credibility.",

author = "\{LIGO Scientific, Virgo, and KAGRA Collaborations\} and Abac, \{A. G.\} and I. Abouelfettouh and F. Acernese and K. Ackley and C. Adamcewicz and S. Adhicary and D. Adhikari and N. Adhikari and Adhikari, \{R. X.\} and Adkins, \{V. K.\} and S. Afroz and A. Agapito and D. Agarwal and M. Agathos and N. Aggarwal and S. Aggarwal and Aguiar, \{O. D.\} and Ahrend, \{I. L.\} and L. Aiello and A. Ain and P. Ajith and T. Akutsu and S. Al-Kershi and S. Al-Shammari and S. Albanesi and W. Ali and C. All{\'e}n{\'e} and A. Allocca and Altin, \{P. A.\} and S. Alvarez-Lopez and W. Amar and O. Amarasinghe and A. Amato and F. Amicucci and C. Amra and A. Ananyeva and Anderson, \{S. B.\} and Anderson, \{W. G.\} and M. Andia and M. Ando and M. Andr{\'e}s-Carcasona and T. Andri{\'c} and J. Anglin and S. Ansoldi and Antelis, \{J. M.\} and S. Antier and M. Aoumi and Appavuravther, \{E. Z.\} and S. Appert and D. Guetta",

year = "2025",

month = sep,

day = "12",

doi = "10.1103/kw5g-d732",

language = "אנגלית",

volume = "135",

pages = "111403",

journal = "Physical Review Letters",

issn = "0031-9007",

publisher = "American Physical Society",

number = "11",

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T2 - Testing Hawking's Area Law and the Kerr Nature of Black Holes

AU - LIGO Scientific, Virgo, and KAGRA Collaborations

AU - Abac, A. G.

AU - Abouelfettouh, I.

AU - Acernese, F.

AU - Ackley, K.

AU - Adamcewicz, C.

AU - Adhicary, S.

AU - Adhikari, D.

AU - Adhikari, N.

AU - Adhikari, R. X.

AU - Adkins, V. K.

AU - Afroz, S.

AU - Agapito, A.

AU - Agarwal, D.

AU - Agathos, M.

AU - Aggarwal, N.

AU - Aggarwal, S.

AU - Aguiar, O. D.

AU - Ahrend, I. L.

AU - Aiello, L.

AU - Ain, A.

AU - Ajith, P.

AU - Akutsu, T.

AU - Al-Kershi, S.

AU - Al-Shammari, S.

AU - Albanesi, S.

AU - Ali, W.

AU - Alléné, C.

AU - Allocca, A.

AU - Altin, P. A.

AU - Alvarez-Lopez, S.

AU - Amar, W.

AU - Amarasinghe, O.

AU - Amato, A.

AU - Amicucci, F.

AU - Amra, C.

AU - Ananyeva, A.

AU - Anderson, S. B.

AU - Anderson, W. G.

AU - Andia, M.

AU - Ando, M.

AU - Andrés-Carcasona, M.

AU - Andrić, T.

AU - Anglin, J.

AU - Ansoldi, S.

AU - Antelis, J. M.

AU - Antier, S.

AU - Aoumi, M.

AU - Appavuravther, E. Z.

AU - Appert, S.

AU - Guetta, D.

PY - 2025/9/12

Y1 - 2025/9/12

N2 - The gravitational-wave signal GW250114 was observed by the two LIGO detectors with a network matched-filter signal-to-noise ratio of 80. The signal was emitted by the coalescence of two black holes with near-equal masses m_{1}=33.6_{-0.8}^{+1.2}M_{⊙} and m_{2}=32.2_{-1.3}^{+0.8}M_{⊙}, and small spins χ_{1,2}≤0.26 (90% credibility) and negligible eccentricity e≤0.03. Postmerger data excluding the peak region are consistent with the dominant quadrupolar (ℓ=|m|=2) mode of a Kerr black hole and its first overtone. We constrain the modes' frequencies to ±30% of the Kerr spectrum, providing a test of the remnant's Kerr nature. We also examine Hawking's area law, also known as the second law of black hole mechanics, which states that the total area of the black hole event horizons cannot decrease with time. A range of analyses that exclude up to five of the strongest merger cycles confirm that the remnant area is larger than the sum of the initial areas to high credibility.

AB - The gravitational-wave signal GW250114 was observed by the two LIGO detectors with a network matched-filter signal-to-noise ratio of 80. The signal was emitted by the coalescence of two black holes with near-equal masses m_{1}=33.6_{-0.8}^{+1.2}M_{⊙} and m_{2}=32.2_{-1.3}^{+0.8}M_{⊙}, and small spins χ_{1,2}≤0.26 (90% credibility) and negligible eccentricity e≤0.03. Postmerger data excluding the peak region are consistent with the dominant quadrupolar (ℓ=|m|=2) mode of a Kerr black hole and its first overtone. We constrain the modes' frequencies to ±30% of the Kerr spectrum, providing a test of the remnant's Kerr nature. We also examine Hawking's area law, also known as the second law of black hole mechanics, which states that the total area of the black hole event horizons cannot decrease with time. A range of analyses that exclude up to five of the strongest merger cycles confirm that the remnant area is larger than the sum of the initial areas to high credibility.

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SN - 0031-9007

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 11

ER -

GW250114: Testing Hawking's Area Law and the Kerr Nature of Black Holes

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