Статья

GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs

B. P. AbbottCalifornia Institute of TechnologyR. AbbottCalifornia Institute of TechnologyT. D. AbbottLouisiana State UniversityS. AbrahamInter-University Centre for Astronomy and AstrophysicsF. AcerneseUniversità di SalernoK. AckleyMonash UniversityC. AdamsLIGO Livingston ObservatoryR. X. AdhikariCalifornia Institute of TechnologyV. B. AdyaLeibniz Universität HannoverC. AffeldtLeibniz Universität HannoverM. AgathosUniversity of CambridgeK. AgatsumaUniversity of BirminghamN. AggarwalMassachusetts Institute of TechnologyO. D. AguiarInstituto Nacional de Pesquisas EspaciaisL. AielloGran Sasso Science Institute (GSSI)A. AinInter-University Centre for Astronomy and AstrophysicsP. AjithTata Institute of Fundamental ResearchB. AllenUniversity of Illinois at Urbana-ChampaignA. AlloccaINFNM. Á. AloyUniversitat de ValènciaP. A. AltinAustralian National UniversityA. AmatoLaboratoire des Matériaux Avancés (LMA)A. AnanyevaCalifornia Institute of TechnologyS. B. AndersonCalifornia Institute of TechnologyW. G. AndersonUniversity of Wisconsin–MilwaukeeS. V. AngelovaUniversity of StrathclydeS. AntierUniversité Paris-SudS. AppertCalifornia Institute of TechnologyK. AraiCalifornia Institute of TechnologyM. C. ArayaCalifornia Institute of TechnologyJ. S. AreedaCalifornia State University FullertonM. ArèneUniversité Paris DiderotN. ArnaudEuropean Gravitational Observatory (EGO)K. G. ArunChennai Mathematical InstituteS. AscenziINFNG. AshtonMonash UniversityS. M. AstonLIGO Livingston ObservatoryP. AstoneINFNF. AubinUniversité Grenoble AlpesP. AufmuthLeibniz Universität HannoverK. AultONealEmbry-Riddle Aeronautical UniversityC. AustinLouisiana State UniversityV. AvendanoMontclair State UniversityA. Avila-AlvarezCalifornia State University FullertonS. BabakMax Planck Institute for Gravitational Physics (Albert Einstein Institute)P. BaconUniversité Paris DiderotF. BadaraccoGran Sasso Science Institute (GSSI)M. K. M. BaderScience Park 105S. BaeKorea Institute of Science and Technology InformationP. T. BakerWest Virginia UniversityF. BaldacciniINFNG. BallardinEuropean Gravitational Observatory (EGO)S. W. BallmerSyracuse UniversityS. BanagiriUniversity of MinnesotaJ. C. BarayogaCalifornia Institute of TechnologyS. E. BarclayUniversity of GlasgowB. C. BarishCalifornia Institute of TechnologyD. BarkerK. BarkettCaltech CaRTS. BarnumMassachusetts Institute of TechnologyF. BaroneINFNB. BarrUniversity of GlasgowL. BarsottiMassachusetts Institute of TechnologyM. BarsugliaUniversité Paris DiderotD. BartaWigner RCPJ. BartlettI. BartosUniversity of FloridaR. BassiriStanford UniversityA. BastiINFNM. BawajINFNJ. C. BayleyUniversity of GlasgowM. BazzanINFNB. BécsyMontana State UniversityM. BejgerNicolaus Copernicus Astronomical CenterI. BelahceneUniversité Paris-SudA. S. BellUniversity of GlasgowD. BeniwalUniversity of AdelaideB. K. BergerStanford UniversityG. BergmannLeibniz Universität HannoverSebastiano BernuzziFriedrich-Schiller-Universität JenaJ. J. BeroRochester Institute of TechnologyC. P. L. BerryNorthwestern UniversityD. BersanettiINFNA. BertoliniScience Park 105J. BetzwieserLIGO Livingston ObservatoryR. BhandareRRCATJ. BidlerCalifornia State University FullertonI. A. BilenkoLomonosov Moscow State UniversityS. A. BilgiliWest Virginia UniversityG. BillingsleyCalifornia Institute of TechnologyJ. BirchLIGO Livingston ObservatoryR. BirneyUniversity of StrathclydeO. BirnholtzRochester Institute of TechnologyS. BiscansCalifornia Institute of TechnologyS. BiscoveanuMonash UniversityA. BishtLeibniz Universität HannoverM. BitossiEuropean Gravitational Observatory (EGO)M. A. BizouardUniversité Paris-SudJ. K. BlackburnCalifornia Institute of TechnologyJonathan BlackmanCaltech CaRT

2019en

ABI

Аннотация

We present the results from three gravitational-wave searches for coalescing compact binaries with component masses above <a:math xmlns:a="http://www.w3.org/1998/Math/MathML" display="inline"><a:mrow><a:mn>1</a:mn><a:mtext> </a:mtext><a:mtext> </a:mtext><a:msub><a:mrow><a:mi>M</a:mi></a:mrow><a:mrow><a:mo stretchy="false">⊙</a:mo></a:mrow></a:msub></a:mrow></a:math> during the first and second observing runs of the advanced gravitational-wave detector network. During the first observing run (<d:math xmlns:d="http://www.w3.org/1998/Math/MathML" display="inline"><d:mi>O</d:mi><d:mn>1</d:mn></d:math>), from September 12, 2015 to January 19, 2016, gravitational waves from three binary black hole mergers were detected. The second observing run (<f:math xmlns:f="http://www.w3.org/1998/Math/MathML" display="inline"><f:mi>O</f:mi><f:mn>2</f:mn></f:math>), which ran from November 30, 2016 to August 25, 2017, saw the first detection of gravitational waves from a binary neutron star inspiral, in addition to the observation of gravitational waves from a total of seven binary black hole mergers, four of which we report here for the first time: GW170729, GW170809, GW170818, and GW170823. For all significant gravitational-wave events, we provide estimates of the source properties. The detected binary black holes have total masses between <h:math xmlns:h="http://www.w3.org/1998/Math/MathML" display="inline"><h:mrow><h:msubsup><h:mrow><h:mn>18.6</h:mn></h:mrow><h:mrow><h:mo>−</h:mo><h:mn>0.7</h:mn></h:mrow><h:mrow><h:mo>+</h:mo><h:mn>3.2</h:mn></h:mrow></h:msubsup><h:mtext> </h:mtext><h:mtext> </h:mtext><h:msub><h:mrow><h:mi>M</h:mi></h:mrow><h:mrow><h:mo stretchy="false">⊙</h:mo></h:mrow></h:msub></h:mrow></h:math> and <k:math xmlns:k="http://www.w3.org/1998/Math/MathML" display="inline"><k:msubsup><k:mn>84.4</k:mn><k:mrow><k:mo>−</k:mo><k:mn>11.1</k:mn></k:mrow><k:mrow><k:mo>+</k:mo><k:mn>15.8</k:mn></k:mrow></k:msubsup><k:mtext> </k:mtext><k:mtext> </k:mtext><k:msub><k:mrow><k:mi>M</k:mi></k:mrow><k:mrow><k:mo stretchy="false">⊙</k:mo></k:mrow></k:msub></k:math> and range in distance between <n:math xmlns:n="http://www.w3.org/1998/Math/MathML" display="inline"><n:msubsup><n:mn>320</n:mn><n:mrow><n:mo>−</n:mo><n:mn>110</n:mn></n:mrow><n:mrow><n:mo>+</n:mo><n:mn>120</n:mn></n:mrow></n:msubsup></n:math> and <p:math xmlns:p="http://www.w3.org/1998/Math/MathML" display="inline"><p:mrow><p:msubsup><p:mrow><p:mn>2840</p:mn></p:mrow><p:mrow><p:mo>−</p:mo><p:mn>1360</p:mn></p:mrow><p:mrow><p:mo>+</p:mo><p:mn>1400</p:mn></p:mrow></p:msubsup><p:mtext> </p:mtext><p:mtext> </p:mtext><p:mi>Mpc</p:mi></p:mrow></p:math>. No neutron star–black hole mergers were detected. In addition to highly significant gravitational-wave events, we also provide a list of marginal event candidates with an estimated false-alarm rate less than 1 per 30 days. From these results over the first two observing runs, which include approximately one gravitational-wave detection per 15 days of data searched, we infer merger rates at the 90% confidence intervals of <r:math xmlns:r="http://www.w3.org/1998/Math/MathML" display="inline"><r:mrow><r:mn>110</r:mn><r:mo>−</r:mo><r:mn>3840</r:mn><r:mtext> </r:mtext><r:mtext> </r:mtext><r:msup><r:mrow><r:mi>Gpc</r:mi></r:mrow><r:mrow><r:mo>−</r:mo><r:mn>3</r:mn></r:mrow></r:msup><r:mtext> </r:mtext><r:msup><r:mrow><r:mi mathvariant="normal">y</r:mi></r:mrow><r:mrow><r:mo>−</r:mo><r:mn>1</r:mn></r:mrow></r:msup></r:mrow></r:math> for binary neutron stars and <u:math xmlns:u="http://www.w3.org/1998/Math/MathML" display="inline"><u:mrow><u:mn>9.7</u:mn><u:mo>−</u:mo><u:mn>101</u:mn><u:mtext> </u:mtext><u:mtext> </u:mtext><u:msup><u:mrow><u:mi>Gpc</u:mi></u:mrow><u:mrow><u:mo>−</u:mo><u:mn>3</u:mn></u:mrow></u:msup><u:mtext> </u:mtext><u:msup><u:mrow><u:mi mathvariant="normal">y</u:mi></u:mrow><u:mrow><u:mo>−</u:mo><u:mn>1</u:mn></u:mrow></u:msup></u:mrow></u:math> for binary black holes assuming fixed population distributions and determine a neutron star–black hole merger rate 90% upper limit of <x:math xmlns:x="http://www.w3.org/1998/Math/MathML" display="inline"><x:mrow><x:mn>610</x:mn><x:mtext> </x:mtext><x:mtext> </x:mtext><x:msup><x:mrow><x:mi>Gpc</x:mi></x:mrow><x:mrow><x:mo>−</x:mo><x:mn>3</x:mn></x:mrow></x:msup><x:mtext> </x:mtext><x:msup><x:mrow><x:mi mathvariant="normal">y</x:mi></x:mrow><x:mrow><x:mo>−</x:mo><x:mn>1</x:mn></x:mrow></x:msup></x:mrow></x:math>. Published by the American Physical Society 2019

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Идентификаторы

DOI: 10.1103/physrevx.9.031040

Цитирования и источники

Цитирований: 6Использованных источников: 0

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