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  The NANOGrav 15-year Data Set: Bayesian Limits on Gravitational Waves from Individual Supermassive Black Hole Binaries

Agazie, G., Anumarlapudi, A., Archibald, A. M., Arzoumanian, Z., Baker, P. T., Bécsy, B., et al. (2023). The NANOGrav 15-year Data Set: Bayesian Limits on Gravitational Waves from Individual Supermassive Black Hole Binaries. Astrophysical Journal Letters, 951(2): L50. doi:10.3847/2041-8213/ace18a.

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Agazie, Gabriella, Author
Anumarlapudi, Akash, Author
Archibald, Anne M., Author
Arzoumanian, Zaven, Author
Baker, Paul T., Author
Bécsy, Bence, Author
Blecha, Laura, Author
Brazier, Adam, Author
Brook, Paul R., Author
Burke-Spolaor, Sarah, Author
Case, Robin, Author
Casey-Clyde, J. Andrew, Author
Charisi, Maria, Author
Chatterjee, Shami, Author
Cohen, Tyler, Author
Cordes, James M., Author
Cornish, Neil, Author
Crawford, Fronefield, Author
Cromartie, H. Thankful, Author
Crowter, Kathryn, Author
DeCesar, Megan, AuthorDemorest, Paul B., AuthorDigman, Matthew C., AuthorDolch, Timothy, AuthorDrachler, Brendan, AuthorFerrara, Elizabeth C., AuthorFiore, William, AuthorFonseca, Emmanuel, AuthorFreedman, Gabriel, AuthorGarver-Daniels, Nathaniel, AuthorGentile, Peter, AuthorGlaser, Joseph, AuthorGood, Deborah, AuthorGültekin, Kayhan, AuthorHazboun, Jeffrey, AuthorHourihane, Sophie, AuthorJennings, Ross, AuthorJohnson, Aaron D., AuthorJones, Megan, AuthorKaiser, Andrew R., AuthorKaplan, David, AuthorKelley, Luke Zoltan, AuthorKerr, Matthew, AuthorKey, Joey, AuthorLaal, Nima, AuthorLam, Michael, AuthorLamb, William G., AuthorLazio, T. Joseph W., AuthorLewandowska, Natalia, AuthorLiu, Tingting, AuthorLorimer, Duncan R., AuthorLuo, Jing Santiago, AuthorLynch, Ryan S., AuthorMa, Chung-Pei, AuthorMadison, Dustin, AuthorMcEwen, Alexander, AuthorMcKee, James W., AuthorMcLaughlin, Maura, AuthorMcMann, Natasha, AuthorMeyers, Bradley W., AuthorMeyers, Patrick M., AuthorMingarelli, Chiara M. F., Authormitridate, andrea, Authornatarajan, priya, AuthorNg, Cherry, AuthorNice, David, AuthorOcker, Stella Koch, AuthorOlum, Ken, AuthorPennucci, Timothy T., AuthorPerera, Benetge, AuthorPetrov, Polina, AuthorPol, Nihan, AuthorRadovan, Henri A., AuthorRansom, Scott, AuthorRay, Paul S., AuthorRomano, Joseph, AuthorSardesai, Shashwat C., AuthorSchmiedekamp, Ann, AuthorSchmiedekamp, Carl, AuthorSchmitz, Kai, AuthorShapiro-Albert, Brent J., AuthorSiemens, Xavier, AuthorSimon, Joseph, AuthorSiwek, Magdalena, AuthorStairs, Ingrid, AuthorStinebring, Dan, AuthorStovall, Kevin, AuthorSusobhanan, Abhimanyu, AuthorSwiggum, Joseph, AuthorTaylor, Jacob, AuthorTaylor, Stephen, AuthorTurner, Jacob E., AuthorUnal, Caner, AuthorVallisneri, Michele, Authorvan Haasteren, Rutger1, Author           Vigeland, Sarah J., AuthorWahl, Haley M., AuthorWitt, Caitlin, AuthorYoung, Olivia, Author more..
Affiliations:
1Observational Relativity and Cosmology, AEI-Hannover, MPI for Gravitational Physics, Max Planck Society, ou_24011              

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Free keywords: Astrophysics, High Energy Astrophysical Phenomena, astro-ph.HE,General Relativity and Quantum Cosmology, gr-qc
 Abstract: Evidence for a low-frequency stochastic gravitational wave background has
recently been reported based on analyses of pulsar timing array data. The most
likely source of such a background is a population of supermassive black hole
binaries, the loudest of which may be individually detected in these datasets.
Here we present the search for individual supermassive black hole binaries in
the NANOGrav 15-year dataset. We introduce several new techniques, which
enhance the efficiency and modeling accuracy of the analysis. The search
uncovered weak evidence for two candidate signals, one with a
gravitational-wave frequency of $\sim$4 nHz, and another at $\sim$170 nHz. The
significance of the low-frequency candidate was greatly diminished when
Hellings-Downs correlations were included in the background model. The
high-frequency candidate was discounted due to the lack of a plausible host
galaxy, the unlikely astrophysical prior odds of finding such a source, and
since most of its support comes from a single pulsar with a commensurate binary
period. Finding no compelling evidence for signals from individual binary
systems, we place upper limits on the strain amplitude of gravitational waves
emitted by such systems.

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 Dates: 2023-06-282023
 Publication Status: Issued
 Pages: 23 pages, 13 figures, 2 tables. Accepted for publication in Astrophysical Journal Letters as part of Focus on NANOGrav's 15-year Data Set and the Gravitational Wave Background. For questions or comments, please email comments@nanograv.org
 Publishing info: -
 Table of Contents: -
 Rev. Type: -
 Identifiers: arXiv: 2306.16222
DOI: 10.3847/2041-8213/ace18a
 Degree: -

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Title: Astrophysical Journal Letters
Source Genre: Journal
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Pages: - Volume / Issue: 951 (2) Sequence Number: L50 Start / End Page: - Identifier: -