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Multi-Messenger Astrophysics With Pulsar Timing Arrays

Author(s): Kelley, Luke; Charisi, M; Burke-Spolaor, S; Simon, J; Blecha, L; et al

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dc.contributor.authorKelley, Luke-
dc.contributor.authorCharisi, M-
dc.contributor.authorBurke-Spolaor, S-
dc.contributor.authorSimon, J-
dc.contributor.authorBlecha, L-
dc.contributor.authorBogdanovic, T-
dc.contributor.authorColpi, M-
dc.contributor.authorComerford, J-
dc.contributor.authorD Orazio, D-
dc.contributor.authorDotti, M-
dc.contributor.authorEracleous, M-
dc.contributor.authorGraham, M-
dc.contributor.authorGreene, Jenny E-
dc.contributor.authorHaiman, Z-
dc.contributor.authorHolley-Bockelmann, K-
dc.contributor.authorKara, E-
dc.contributor.authorKelly, B-
dc.contributor.authorKomossa, S-
dc.contributor.authorLarson, S-
dc.contributor.authorLiu, X-
dc.contributor.authorMa, C-P-
dc.contributor.authorNoble, S-
dc.contributor.authorPaschalidis, V-
dc.contributor.authorRafikov, R-
dc.contributor.authorRavi, V-
dc.contributor.authorRunnoe, J-
dc.contributor.authorSesana, A-
dc.contributor.authorStern, D-
dc.contributor.authorStrauss, Michael A-
dc.contributor.authorU, V-
dc.contributor.authorVolonteri, M-
dc.contributor.authorCollaboration, Nanograv-
dc.date.accessioned2023-12-28T15:42:13Z-
dc.date.available2023-12-28T15:42:13Z-
dc.date.issued2019-05-31en_US
dc.identifier.citationKelley, Luke, Charisi, M, Burke-Spolaor, S, Simon, J, Blecha, L, Bogdanovic, T, Colpi, M, Comerford, J, D Orazio, D, Dotti, M, Eracleous, M, Graham, M, Greene, J, Haiman, Z, Holley-Bockelmann, K, Kara, E, Kelly, B, Komossa, S, Larson, S, Liu, X, Ma, C-P, Noble, S, Paschalidis, V, Rafikov, R, Ravi, V, Runnoe, J, Sesana, A, Stern, D, Strauss, MA, U, V, Volonteri, M, Collaboration, Nanograv. (2019). Multi-Messenger Astrophysics With Pulsar Timing Arrays. \baas, 51 (490 - 490en_US
dc.identifier.urihttp://arks.princeton.edu/ark:/88435/pr1bc3sx3g-
dc.description.abstractPulsar timing arrays (PTAs) are on the verge of detecting low-frequency gravitational waves (GWs) from supermassive black hole binaries (SMBHBs). With continued observations of a large sample of millisecond pulsars, PTAs will reach this major milestone within the next decade. Already, SMBHB candidates are being identified by electromagnetic surveys in ever-increasing numbers; upcoming surveys will enhance our ability to detect and verify candidates, and will be instrumental in identifying the host galaxies of GW sources. Multi-messenger (GW and electromagnetic) observations of SMBHBs will revolutionize our understanding of the co-evolution of SMBHs with their host galaxies, the dynamical interactions between binaries and their galactic environments, and the fundamental physics of accretion. Multi-messenger observations can also make SMBHBs ‘standard sirens’ for cosmological distance measurements out to z '0.5. LIGO has already ushered in break- through insights in our knowledge of black holes. The multi-messenger detection of SMBHBs with PTAs will be a breakthrough in the years 2020–2030 and beyond, and prepare us for LISA to help complete our views of black hole demographics and evolution at higher redshifts.en_US
dc.language.isoen_USen_US
dc.relation.ispartofBulletin of the American Astronomical Societyen_US
dc.rightsAuthor's manuscripten_US
dc.titleMulti-Messenger Astrophysics With Pulsar Timing Arraysen_US
dc.typeJournal Articleen_US
dc.date.eissued2019-05en_US
pu.type.symplectichttp://www.symplectic.co.uk/publications/atom-terms/1.0/journal-articleen_US

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