How to Detect an Astrophysical Nanohertz Gravitational-Wave Background

Bécsy, Bence; Cornish, Neil J.; Meyers, Patrick M.; Kelley, Luke Zoltan; Agazie, Gabriella; Anumarlapudi, Akash; Archibald, Anne M.; Arzoumanian, Zaven; Baker, Paul T.; Blecha, Laura; Brazier, Adam; Brook, Paul R.; Burke-Spolaor, Sarah; Casey-Clyde, J. Andrew; Charisi, Maria; Chatterjee, Shami; Chatziioannou, Katerina; Cohen, Tyler; Cordes, James M.; Crawford, Fronefield; Cromartie, H. Thankful; Crowter, Kathryn; DeCesar, Megan E.; Demorest, Paul B.; Dolch, Timothy; Ferrara, Elizabeth C.; Fiore, William; Fonseca, Emmanuel; Freedman, Gabriel E.; Garver-Daniels, Nate; Gentile, Peter A.; Glaser, Joseph; Good, Deborah C.; Gültekin, Kayhan; Hazboun, Jeffrey S.; Hourihane, Sophie; Jennings, Ross J.; Johnson, Aaron D.; Jones, Megan L.; Kaiser, Andrew R.; Kaplan, David L.; Kerr, Matthew; Key, Joey S.; Laal, Nima; Lam, Michael T.; Lamb, William G.; Lazio, T. Joseph W.; Lewandowska, Natalia; Littenberg, Tyson B.; Liu, Tingting; Lorimer, Duncan R.; Luo, Jing; Lynch, Ryan S.; Ma, Chung-Pei; Madison, Dustin R.; McEwen, Alexander; McKee, James W.; McLaughlin, Maura A.; McMann, Natasha; Meyers, Bradley W.; Mingarelli, Chiara M. F.; Mitridate, Andrea; Ng, Cherry; Nice, David J.; Ocker, Stella Koch; Olum, Ken D.; Pennucci, Timothy T.; Perera, Benetge B. P.; Pol, Nihan S.; Radovan, Henri A.; Ransom, Scott M.; Ray, Paul S.; Romano, Joseph D.; Sardesai, Shashwat C.; Schmiedekamp, Ann; Schmiedekamp, Carl; Schmitz, Kai; Shapiro-Albert, Brent J.; Siemens, Xavier; Simon, Joseph; Siwek, Magdalena S.; Fiscella, Sophia V. Sosa; Stairs, Ingrid H.; Stinebring, Daniel R.; Stovall, Kevin; Susobhanan, Abhimanyu; Swiggum, Joseph K.; Taylor, Stephen R.; Turner, Jacob E.; Unal, Caner; Vallisneri, Michele; van Haasteren, Rutger; Vigeland, Sarah J.; Wahl, Haley M.; Witt, Caitlin A.; Young, Olivia

doi:10.3847/1538-4357/ad09e4

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How to Detect an Astrophysical Nanohertz Gravitational-Wave Background

Bécsy, B., Cornish, N. J., Meyers, P. M., Kelley, L. Z., Agazie, G., Anumarlapudi, A., et al. (2023). How to Detect an Astrophysical Nanohertz Gravitational-Wave Background. The Astrophysical Journal, 959(1): 9. doi:10.3847/1538-4357/ad09e4.

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Bécsy, Bence, Author
Cornish, Neil J., Author
Meyers, Patrick M., Author
Kelley, Luke Zoltan, Author
Agazie, Gabriella, Author
Anumarlapudi, Akash, Author
Archibald, Anne M., Author
Arzoumanian, Zaven, Author
Baker, Paul T., Author
Blecha, Laura, Author
Brazier, Adam, Author
Brook, Paul R., Author
Burke-Spolaor, Sarah, Author
Casey-Clyde, J. Andrew, Author
Charisi, Maria, Author
Chatterjee, Shami, Author
Chatziioannou, Katerina, Author
Cohen, Tyler, Author
Cordes, James M., Author
Crawford, Fronefield, Author
Cromartie, H. Thankful, AuthorCrowter, Kathryn, AuthorDeCesar, Megan E., AuthorDemorest, Paul B., AuthorDolch, Timothy, AuthorFerrara, Elizabeth C., AuthorFiore, William, AuthorFonseca, Emmanuel, AuthorFreedman, Gabriel E., AuthorGarver-Daniels, Nate, AuthorGentile, Peter A., AuthorGlaser, Joseph, AuthorGood, Deborah C., AuthorGültekin, Kayhan, AuthorHazboun, Jeffrey S., AuthorHourihane, Sophie, AuthorJennings, Ross J., AuthorJohnson, Aaron D., AuthorJones, Megan L., AuthorKaiser, Andrew R., AuthorKaplan, David L., AuthorKerr, Matthew, AuthorKey, Joey S., AuthorLaal, Nima, AuthorLam, Michael T., AuthorLamb, William G., AuthorLazio, T. Joseph W., AuthorLewandowska, Natalia, AuthorLittenberg, Tyson B., AuthorLiu, Tingting, AuthorLorimer, Duncan R., AuthorLuo, Jing, AuthorLynch, Ryan S., AuthorMa, Chung-Pei, AuthorMadison, Dustin R., AuthorMcEwen, Alexander, AuthorMcKee, James W., AuthorMcLaughlin, Maura A., AuthorMcMann, Natasha, AuthorMeyers, Bradley W., AuthorMingarelli, Chiara M. F., AuthorMitridate, Andrea, AuthorNg, Cherry, AuthorNice, David J., AuthorOcker, Stella Koch, AuthorOlum, Ken D., AuthorPennucci, Timothy T., AuthorPerera, Benetge B. P., AuthorPol, Nihan S., AuthorRadovan, Henri A., AuthorRansom, Scott M., AuthorRay, Paul S., AuthorRomano, Joseph D., AuthorSardesai, Shashwat C., AuthorSchmiedekamp, Ann, AuthorSchmiedekamp, Carl, AuthorSchmitz, Kai, AuthorShapiro-Albert, Brent J., AuthorSiemens, Xavier, AuthorSimon, Joseph, AuthorSiwek, Magdalena S., AuthorFiscella, Sophia V. Sosa, AuthorStairs, Ingrid H., AuthorStinebring, Daniel R., AuthorStovall, Kevin, AuthorSusobhanan, Abhimanyu, AuthorSwiggum, Joseph K., AuthorTaylor, Stephen R., AuthorTurner, Jacob E., AuthorUnal, Caner, AuthorVallisneri, Michele, Authorvan Haasteren, Rutger¹, Author Vigeland, Sarah J., AuthorWahl, Haley M., AuthorWitt, Caitlin A., 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: General Relativity and Quantum Cosmology, gr-qc, Astrophysics, High Energy Astrophysical Phenomena, astro-ph.HE

Abstract: Analysis of pulsar timing data have provided evidence for a stochastic
gravitational wave background in the nHz frequency band. The most plausible
source of such a background is the superposition of signals from millions of
supermassive black hole binaries. The standard statistical techniques used to
search for such a background and assess its significance make several
simplifying assumptions, namely: i) Gaussianity; ii) isotropy; and most often
iii) a power-law spectrum. However, a stochastic background from a finite
collection of binaries does not exactly satisfy any of these assumptions. To
understand the effect of these assumptions, we test standard analysis
techniques on a large collection of realistic simulated datasets. The dataset
length, observing schedule, and noise levels were chosen to emulate the
NANOGrav 15-year dataset. Simulated signals from millions of binaries drawn
from models based on the Illustris cosmological hydrodynamical simulation were
added to the data. We find that the standard statistical methods perform
remarkably well on these simulated datasets, despite their fundamental
assumptions not being strictly met. They are able to achieve a confident
detection of the background. However, even for a fixed set of astrophysical
parameters, different realizations of the universe result in a large variance
in the significance and recovered parameters of the background. We also find
that the presence of loud individual binaries can bias the spectral recovery of
the background if we do not account for them.

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Dates: Created: 2023-09-08Modified: 2023-12-01Date issued: 2023

Publication Status: Issued

Pages: 14 pages, 8 figures, version matching published paper

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Identifiers: arXiv: 2309.04443
DOI: 10.3847/1538-4357/ad09e4

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Title: The Astrophysical Journal

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Pages: - Volume / Issue: 959 (1) Sequence Number: 9 Start / End Page: - Identifier: -