A Targeted Gamma-Ray Search of Five Prominent Galaxy Merger Systems with 17 years of Fermi-LAT Data

Abstract

Galaxy mergers are among the most energetic astrophysical phenomena, driving intense star formation and potentially fueling cosmic ray acceleration, which can produce high energy γ-ray emission through hadronic processes. We present a targeted search for γ-ray emission from five prominent galaxy merger systems, NGC~3256, NGC~660, UGC~813/816, UGC~12914/12915, and VV~114 using 16.9 years of Fermi-LAT data in the 1--300~GeV energy range. Employing a binned maximum likelihood analysis, we model the emission with power-law spectra and derive spectral energy distributions (SEDs) to constrain γ-ray fluxes and spectral indices. Marginal detections are found for NGC~3256 (TS = 15.4, 3.51σ) and NGC~660 (TS = 8.16, 2.39σ), with photon fluxes of (7.21 3.17) × 10-11 and (8.28 3.56) × 10-11 ph cm-2 s-1, respectively, suggesting merger driven star formation contributes to γ-ray emission. The remaining systems yield non-detections (TS < 5). This is the first targeted study of γ-ray emission from these aforementioned galaxy merger systems.