Possible detection of gamma rays from Epsilon Eridani

Abstract

We use the Fermi-LAT gamma-ray observatory to search for gamma-ray emission from four nearby, debris disk-hosting main sequence stars: τ Ceti, ε Eridani, Fomalhaut, and Vega. For three stars (τ Ceti, Fomalhaut, and Vega), we establish upper limits that are consistent with theoretical expectations. For ε Eridani, we find a possible spatially coincident source with a soft energy spectrum of dN/dE E-3.6. However, at this stage we are unable to rule out that this emission is due to a more extended feature in the diffuse background. In the interpretation that the emission is due to ε Eridani, the > 100 MeV gamma-ray luminosity is 1027 erg/s 3× 10-7 L, which is 1010 times the gamma-ray luminosity from the disk of the quiet Sun. We find 2 σ evidence of source variability over a 7 year timescale. In the interpretation that the gamma-ray emission from ε Eridani itself, we consider two possible models: 1) cosmic-ray collisions with solid bodies in the debris disk which extends out 60 AU from the host star, and 2) emission from the stellar activity. For the former model, assuming a total disk mass consistent with infrared measurements, we find that the size distribution of bodies is steeper than expected for a collisional cascade state. If confirmed as being associated with ε Eridani, this would be the first indication of gamma-ray emission from the vicinity of a main sequence star other than the Sun.