Galaxy Mergers Collectively Illuminate the γ-Ray Sky

Abstract

The origin and acceleration mechanism of cosmic rays (CRs) remain fundamental open questions. Galaxy mergers are proposed as very high-energy CR accelerators, which are expected to produce high-energy (HE) γ rays and neutrinos through interactions with the ambient gas and low-energy background radiation fields. For the first time, we systematically study the HE γ-ray emission from galaxy mergers utilising 16.7 years of Fermi Large Area Telescope (Fermi-LAT) data with the sample list compiled from eight survey catalogs. Our analysis finds 8 galaxy mergers that exhibit γ-ray emission with significance 5σ in the 1-500 GeV energy range. A stacking analysis of the remaining faint galaxy mergers yields a combined γ-ray emission detected at 35σ significance, a best-fit spectral index of ≈ 2.07, and an energy flux of 2×10-14~erg~cm-2~s-1. We compare the stacked spectral energy distributions of the galaxy mergers with the projected sensitivity of the upcoming γ-ray telescope Cherenkov Telescope Array (CTA). Furthermore, we find that 18 previously unassociated Fermi-LAT sources are spatially coincident with galaxy mergers. Our findings establish galaxy mergers as a new class of HE γ-ray sources. Future neutrino and γ-ray observatories will be crucial to discover the particle acceleration mechanism in these newly identified CR sources.

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