Second Data Release from the European Pulsar Timing Array: Challenging the Ultralight Dark Matter Paradigm

Clemente Smarra,Boris Goncharov,Enrico Barausse, J. Antoniadis, S. Babak,A. -S. Bak Nielsen, C. G. Bassa, A. Berthereau, M. Bonetti, E. Bortolas, P. R. Brook,M. Burgay, R. N. Caballero, A. Chalumeau, D. J. Champion, S. Chanlaridis, S. Chen,I Cognard,G. Desvignes, M. Falxa, R. D. Fredman, A. Franchini, J. R. Gair, E. Graikou, J. -M. Griessmeier, L. Guillemot, Y. J. Guo, H. Hu, F. Iraci, D. Izquierdo-Villalba, J. Jang, J. Jawor, G. H. Janssen, A. Jessner,R. Karuppusamy, E. F. Keane, M. J. Keith,M. Kramer, M. A. Krishnakumar, K. Lackeos, K. J. Lee, K. Liu, Y. Liu,A. G. Lyne, J. W. Mckee, R. A. Main, M. B. Mickaliger, I. C. Nitu, A. Parthasarathy, B. B. P. Perera, D. Perrodin, A. Petiteau, N. K. Porayko,A. Possenti, H. Quelquejay Leclere, A. Samajdar, S. A. Sanidas, A. Sesana, G. Shaifullah, L. Speri, R. Spiewak, B. W. Stappers, S. C. Susarla,G. Theureau, C. Tiburzi,E. van der Wateren, A. Vecchio,V. Venkatraman Krishnan, J. Wang, L. Wang

PHYSICAL REVIEW LETTERS（2023）

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摘要

Pulsar Timing Array experiments probe the presence of possible scalar or pseudoscalar ultralight dark matter particles through decade-long timing of an ensemble of galactic millisecond radio pulsars. With the second data release of the European Pulsar Timing Array, we focus on the most robust scenario, in which dark matter interacts only gravitationally with ordinary baryonic matter. Our results show that ultralight particles with masses 10(-24.0) eV less than or similar to m less than or similar to 10(-23.3) eV cannot constitute 100% of the measured local dark matter density, but can have at most local density rho less than or similar to 0.3 GeV/cm(3).

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关键词

european pulsar timing array,ultralight dark matter paradigm,dark matter,second data release

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