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NANOGrav 15-Year Gravitational-Wave Background Methods

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

Physical Review D(2024)

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Abstract
Pulsar timing arrays (PTAs) use an array of millisecond pulsars to search for gravitational waves in the nanohertz regime in pulse time of arrival data. This paper presents rigorous tests of PTA methods, examining their consistency across the relevant parameter space. We discuss updates to the 15-year isotropic gravitational-wave background analyses and their corresponding code representations. Descriptions of the internal structure of the flagship algorithms enterprise and ptmcmcsampler are given to facilitate understanding of the PTA likelihood structure, how models are built, and what methods are currently used in sampling the high-dimensional PTA parameter space. We introduce a novel version of the PTA likelihood that uses a two-step marginalization procedure that performs much faster in gravitational wave searches, reducing the required resources facilitating the computation of Bayes factors via thermodynamic integration and sampling a large number of realizations for computing Bayesian false-alarm probabilities. We perform stringent tests of consistency and correctness of the Bayesian and frequentist analysis methods. For the Bayesian analysis, we test prior recovery, simulation recovery, and Bayes factors. For the frequentist analysis, we test that the optimal statistic, when modified to account for a non-negligible gravitational-wave background, accurately recovers the amplitude of the background. We also summarize recent advances and tests performed on the optimal statistic in the literature from both gravitational wave background detection and parameter estimation perspectives. The tests presented here validate current analyses of PTA data.3 MoreReceived 7 July 2023Accepted 21 March 2024DOI:https://doi.org/10.1103/PhysRevD.109.103012© 2024 American Physical SocietyPhysics Subject Headings (PhySH)Research AreasGravitational wavesTechniquesGravitational wave detectionGravitation, Cosmology & Astrophysics
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