Thakore, B., Negro, M., Regis, M., Camera, S., Gruen, D., Fornengo, N., Roodman, A., Porredon, A., Schutt, T., Cuoco, A., Alarcon, A., Amon, A., Bechtol, K., Becker, M.R., Bernstein, G.M., Campos, A., Carnero Rosell, A., Carrasco Kind, M., Cawthon, R., Chang, C., Chen, R., Choi, A., Cordero, J., Davis, C., DeRose, J., Diehl, H.T., Dodelson, S., Doux, C., Drlica-Wagner, A., Eckert, K., Elvin-Poole, J., Everett, S., Ferté, A., Gatti, M., Giannini, G., Gruendl, R.A., Harrison, I.  ORCID: https://orcid.org/0000-0002-4437-0770, Hartley, W.G., Huff, E.M., Jarvis, M., Kuropatkin, N., Leget, P.-F., MacCrann, N., McCullough, J., Myles, J., Navarro-Alsina, A., Pandey, S., Prat, J., Raveri, M., Rollins, R.P., Ross, A.J., Rykoff, E.S., Sánchez, C., Secco, L.F., Sevilla-Noarbe, I., Sheldon, E., Shin, T., Troxel, M.A., Tutusaus, I., Yanny, B., Yin, B., Zhang, Y., Aguena, M., Brooks, D., Carretero, J., da Costa, L.N., Davis, T.M., De Vicente, J., Desai, S., Doel, P., Flaugher, B., Frieman, J., García-Bellido, J., Gaztanaga, E., Gutierrez, G., Hinton, S.R., Hollowood, D.L., Honscheid, K., James, D.J., Kuehn, K., Lahav, O., Lee, S., Lima, M., Marshall, J.L., Mena-Fernández, J., Miquel, R., Ogando, R.L.C., Palmese, A., Pieres, A., Plazas Malagón, A.A., Samuroff, S., Sanchez, E., Sanchez Cid, D., Smith, M., Suchyta, E., Tarle, G., Vikram, V., Walker, A.R. and Weaverdyck, N.
2025.
High-significance detection of correlation between the unresolved gamma-ray background and the large-scale cosmic structure.
Journal of Cosmology and Astroparticle Physics
2025
(06)
, 037.
10.1088/1475-7516/2025/06/037
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Abstract
Our understanding of the γ-ray sky has improved dramatically in the past decade, however, the unresolved γ-ray background (UGRB) still has a potential wealth of information about the faintest γ-ray sources pervading the Universe. Statistical cross-correlations with tracers of cosmic structure can indirectly identify the populations that most characterize the γ-ray background. In this study, we analyze the angular correlation between the γ-ray background and the matter distribution in the Universe as traced by gravitational lensing, leveraging more than a decade of observations from the Fermi-Large Area Telescope (LAT) and 3 years of data from the Dark Energy Survey (DES). We detect a correlation at signal-to-noise ratio of 8.9. Most of the statistical significance comes from large scales, demonstrating, for the first time, that a substantial portion of the UGRB aligns with the mass clustering of the Universe as traced by weak lensing. Blazars provide a plausible explanation for this signal, especially if those contributing to the correlation reside in halos of large mass (∼ 1014 M ⊙) and account for approximately 30–40% of the UGRB above 10 GeV. Additionally, we observe a preference for a curved γ-ray energy spectrum, with a log-parabolic shape being favored over a power-law. We also discuss the possibility of modifications to the blazar model and the inclusion of additional γ-ray sources, such as star-forming galaxies, misalinged active galactic nuclei, or particle dark matter.
| Item Type: | Article |
|---|---|
| Date Type: | Published Online |
| Status: | Published |
| Schools: | Schools > Physics and Astronomy |
| Additional Information: | License information from Publisher: LICENSE 1: URL: http://creativecommons.org/licenses/by/4.0/, Type: cc-by |
| Publisher: | IOP Publishing |
| Date of First Compliant Deposit: | 20 June 2025 |
| Date of Acceptance: | 26 April 2025 |
| Last Modified: | 20 Jun 2025 11:01 |
| URI: | https://orca.cardiff.ac.uk/id/eprint/179234 |
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