GW170814

GW170814
	The signal of GW170814 measured by Hanford, Livingston and Virgo
Right ascension	3h 11m
Declination	−44° 57′
Total energy output	≈ 3 M☉ × c2
Other designations	GW170814
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GW170814 was a gravitational wave signal from two merging black holes, detected by the LIGO and Virgo observatories on 14 August 2017.^[1] On 27 September 2017, the LIGO and Virgo collaborations announced the observation of the signal, the fourth confirmed event after GW150914, GW151226 and GW170104. It was the first binary black hole merger detected by LIGO and Virgo together.^[2]

Event detection[edit]

The signal was detected at 10:30:43 UTC. The Livingston detector was the first to receive the signal, followed by the Hanford detector 8 milliseconds later and Virgo received the signal 14 milliseconds after Livingston. The detection in all three detectors lead to a very accurate estimate of the position of the source, with a 90% credible region of just 60 deg², a factor 20 times more accurate than before.^[3]

Astrophysical origin[edit]

Analysis indicated the signal resulted from the inspiral and merger of a pair of black holes (BBH) with 30.5+5.7
−3.0 and 25.3+2.8
−4.2 times the mass of the Sun, at a distance of 540+130
−210 megaparsecs (1.8+0.4
−0.7 billion light years) from Earth.^[4] The resulting black hole had a mass of 53.2+3.2
−2.5 solar masses, 2.7+0.4
−0.3 solar masses having been radiated away as gravitational energy. The peak luminosity of GW170814 was 3.7+0.5
−0.5×10⁴⁹ W.

Implications for general relativity[edit]

General relativity predicts that gravitational waves have a tensor-like (spin-2) polarization. The detection in all three detectors led to strong experimental evidence for pure tensor polarization over pure scalar or pure vector polarizations.^[2]^[5]

References[edit]

^ Overbye, Dennis (27 September 2017). "New Gravitational Wave Detection From Colliding Black Holes". The New York Times. Retrieved 28 September 2017.
^ ^a ^b
Abbott, Benjamin P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2017). "GW170814: A three-detector observation of gravitational waves from a binary black hole coalescence". Physical Review Letters. 119 (14): 141101. arXiv:1709.09660. Bibcode:2017PhRvL.119n1101A. doi:10.1103/PhysRevLett.119.141101. PMID 29053306. S2CID 46829350.
- "Gravitational waves from a binary black hole merger observed by LIGO and Virgo" (PDF). LIGO Scientific Collaboration (Press release).
^ Update on Gravitational Wave Science from the LIGO-Virgo Scientific Collaborations (Video of the press conference), retrieved 27 September 2017
^ New detectors reveal a cosmic calamity. Don Lincoln, CNN News, 1 October 2017
^ "European detector spots its first gravitational wave". Elizabeth Gibney & Davide Castelvecchi. Nature. 27 September 2017. Retrieved 27 September 2017.

External links[edit]

[NYT-20170927-1] Overbye, Dennis (27 September 2017). "New Gravitational Wave Detection From Colliding Black Holes". The New York Times. Retrieved 28 September 2017.

[PRL-20171006-2] Abbott, Benjamin P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2017). "GW170814: A three-detector observation of gravitational waves from a binary black hole coalescence". Physical Review Letters. 119 (14): 141101. arXiv:1709.09660. Bibcode:2017PhRvL.119n1101A. doi:10.1103/PhysRevLett.119.141101. PMID 29053306. S2CID 46829350.
"Gravitational waves from a binary black hole merger observed by LIGO and Virgo" (PDF). LIGO Scientific Collaboration (Press release).

[3] "Gravitational waves from a binary black hole merger observed by LIGO and Virgo" (PDF). LIGO Scientific Collaboration (Press release).

[3] Update on Gravitational Wave Science from the LIGO-Virgo Scientific Collaborations (Video of the press conference), retrieved 27 September 2017

[Lincoln-4] New detectors reveal a cosmic calamity. Don Lincoln, CNN News, 1 October 2017

[5] "European detector spots its first gravitational wave". Elizabeth Gibney & Davide Castelvecchi. Nature. 27 September 2017. Retrieved 27 September 2017.

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[5]

v t e 2017 in space
« 2016 2018 »
Space probe launches	ASTERIA (miniature space telescope; August 2017)
Impact events	Bolides in 2017 2017 China bolide
Selected NEOs	Asteroid close approaches 2017 AG13 2017 BS5 2017 BQ6 2016 WF9 2014 JO25 2017 OO1 2017 QP1 3122 Florence 2017 SX17 2012 TC4 2017 TD6 2017 VL2 2017 VW13 2017 XO2 3200 Phaethon
Exoplanets	HATS-36b HD 113996 b KELT-18b Kepler-19d Kepler-80g Kepler-90i K2-66b K2-138b LHS 1140 b Luyten b NGTS-1b OGLE-2016-BLG-1190Lb OGLE-2016-BLG-1195Lb Ross 128 b Tau Ceti g h TRAPPIST-1 e f g h dark albedo of WASP-12b WASP-107b YZ Ceti b c d
Discoveries	GW170104 Ring of Haumea 2 moons of Jupiter GW170608 Saraswati Supercluster GW170814 IGR J17329-2731 (X-ray source) GW170817 neutron star merger ʻOumuamua ULAS J1342+0928 RZ Piscium
Comets	C/2016 U1 (NEOWISE) 41P/Tuttle–Giacobini–Kresák 103P/Hartley C/2015 ER₆₁ (PanSTARRS) C/2015 V2 (Johnson) P/2006 VW139 C/2017 O1 (ASASSN) 96P/Machholz
Space exploration	Cassini retirement (impacted into Saturn; Sep 2017) OSIRIS-REx (Earth gravity assist; Sep 2017)
Outer space portal Category:2016 in outer space — Category:2017 in outer space — Category:2018 in outer space

Event detection[edit]

Astrophysical origin[edit]

Implications for general relativity[edit]

See also[edit]

References[edit]

External links[edit]