Chrome Extension
WeChat Mini Program
Use on ChatGLM

The NANOGrav 15 Yr Data Set: Search for Signals from New Physics

Adeela Afzal,Gabriella Agazie,Akash M. Anumarlapudi,Anne Archibald,Zaven T. Arzoumanian,Paul Baker,Bence Becsy,Jose Juan Blanco-Pillado,Laura K. Blecha,Kimberly Boddy,Adam R. Brazier,Paul Brook,Sarah Burke-Spolaor,Rand Burnette,Robin Case,Maria Charisi,Shami Chatterjee,Katerina D. Chatziioannou,Belinda Cheeseboro,Siyuan Chen,Tyler M. Cohen,James J. Cordes,Neil Cornish,Fronefield Crawford,H. Thankful Cromartie,Kathryn J. Crowter,Curt E. Cutler,Megan DeCesar,Dallas B. DeGan,Paul Demorest,Heling Deng,Timothy Dolch,Brendan Drachler,Richard C. von Eckardstein,Elizabeth Ferrara,William Fiore,Emmanuel E. Fonseca,Gabriel Freedman,Nate A. Garver-Daniels,Peter A. Gentile,Kyle Gersbach,Joseph C. Glaser,Deborah Good,Lydia Guertin,Kayhan S. Gueltekin,Jeffrey Hazboun,Sophie Hourihane,Kristina J. Islo, Ross D. Jennings, Aaron L. Johnson,Megan R. Jones, Andrew L. Kaiser,David Kaplan,Luke Zoltan Kelley,Matthew S. Kerr,Joey Key,Nima T. Laal,Michael G. Lam,William Lamb,T. Joseph W. Lazio,Vincent S. H. Lee,Natalia R. Lewandowska, Rafael B. Lino dos Santos,Tyson Littenberg,Tingting R. Liu,Duncan Lorimer,Jing S. Luo,Ryan Lynch,Chung-Pei R. Ma,Dustin Madison,Alexander W. McEwen,James A. McKee,Maura McLaughlin,Natasha W. McMann, Bradley M. Meyers,Patrick Meyers,Chiara M. F. Mingarelli,Andrea Mitridate,Jonathan Nay,Priyamvada Natarajan,Cherry J. Ng,David Nice,Stella Koch D. Ocker,Ken T. Olum,Timothy Pennucci,Benetge B. P. Perera,Polina S. Petrov,Nihan A. Pol, Henri M. Radovan,Scott S. Ransom, Paul D. Ray,Joseph C. Romano,Shashwat Sardesai,Ann Schmiedekamp,Carl Schmiedekamp,Kai Schmitz, Tobias Schroeder,Levi J. Schult,Brent Shapiro-Albert,Xavier Siemens, Joseph S. Simon,Magdalena H. Siwek,Ingrid R. Stairs,Daniel Stinebring,Kevin Stovall, Peter P. Stratmann,Jerry Sun,Abhimanyu K. Susobhanan,Joseph Swiggum, Jacob R. Taylor,Stephen Taylor,Tanner E. Trickle,Jacob Turner,Caner Unal,Michele Vallisneri, Sonali J. Verma,Sarah M. Vigeland,Haley Wahl,Qiaohong A. Wang,Caitlin Witt,David Wright,Olivia M. Young,Kathryn Zurek

ASTROPHYSICAL JOURNAL LETTERS(2023)

Cited 34|Views15
No score
Abstract
The 15 yr pulsar timing data set collected by the North American Nanohertz Observatory for Gravitational Waves (NANOGrav) shows positive evidence for the presence of a low-frequency gravitational-wave (GW) background. In this paper, we investigate potential cosmological interpretations of this signal, specifically cosmic inflation, scalar-induced GWs, first-order phase transitions, cosmic strings, and domain walls. We find that, with the exception of stable cosmic strings of field theory origin, all these models can reproduce the observed signal. When compared to the standard interpretation in terms of inspiraling supermassive black hole binaries (SMBHBs), many cosmological models seem to provide a better fit resulting in Bayes factors in the range from 10 to 100. However, these results strongly depend on modeling assumptions about the cosmic SMBHB population and, at this stage, should not be regarded as evidence for new physics. Furthermore, we identify excluded parameter regions where the predicted GW signal from cosmological sources significantly exceeds the NANOGrav signal. These parameter constraints are independent of the origin of the NANOGrav signal and illustrate how pulsar timing data provide a new way to constrain the parameter space of these models. Finally, we search for deterministic signals produced by models of ultralight dark matter (ULDM) and dark matter substructures in the Milky Way. We find no evidence for either of these signals and thus report updated constraints on these models. In the case of ULDM, these constraints outperform torsion balance and atomic clock constraints for ULDM coupled to electrons, muons, or gluons.
More
Translated text
Key words
Gravitational waves,Cosmology,Particle astrophysics,Gravitational wave sources
AI Read Science
Must-Reading Tree
Example
Generate MRT to find the research sequence of this paper
Chat Paper
Summary is being generated by the instructions you defined