A Tentative Double Excess in the Gamma-Ray Spectrum of the Fermi Blazar 4FGL J0604.9-0000

Abstract

Based on 17.75 years of Fermi-LAT observations, we report a tentative double excess in the gamma-ray spectrum of the blazar 4FGL J0604.9-0000, with peak energies at approximately 1.5 GeV and 11 GeV. The two excesses are modeled as double Gaussian components. For the lower-energy excess, the best-fit centroid is E1 = 1.590.07 GeV with a width fixed to the instrumental resolution (σ1 = 0.145 GeV). For the higher-energy excess, the centroid is E2 = 11.150.61 GeV and the width is constrained to σ2 = 1.185 GeV (about 10\% of the peak energy), which is comparable to the Fermi-LAT energy resolution at that energy. The two features have local significances of 2.6σ and 3.7σ (3 dof), respectively. A joint likelihood analysis yields a combined test statistic of TS 27, corresponding to a local significance of approximately 4.3σ (4 dof, without correction for trials and the look-elsewhere effect) or about 4.8σ (2 dof). To our knowledge, no other active galactic nucleus has been reported to show a similar double-excess candidate. The observed energy ratio of 1:7 is difficult to explain with standard astrophysical emission processes. However, the energies and their ratio are consistent with dark matter annihilation (e.g., χχγγ and χχγγ') for a particle mass near 11 GeV, making this source a promising target for follow-up observations with next-generation gamma-ray telescopes.