High Energy Gamma Rays from Nebulae Associated with Extragalactic Microquasars and Ultra-Luminous X-ray Sources

Abstract

In the extragalactic sky, microquasars and ultra-luminous X-ray sources (ULXs) are known as energetic compact objects locating at off-nucleus positions in galaxies. Some of these objects are associated with expanding bubbles with a velocity of 80-250 km~s-1. We investigate the shock acceleration of particles in those expanding nebulae. The nebulae having fast expansion velocity 120~ km~s-1 are able to accelerate cosmic rays up to 100 TeV. If 10% of the shock kinetic energy goes into particle acceleration, powerful nebulae such as the microquasar S26 in NGC 7793 would emit gamma rays up to several tens TeV with a photon index of 2. These nebulae will be good targets for future Cherenkov Telescope Array observations given its sensitivity and angular resolution. They would also contribute to 7% of the unresolved cosmic gamma-ray background radiation at 0.1~ GeV. In contrast, particle acceleration in slowly expanding nebulae 120~ km~s-1 would be less efficient due to ion-neutral collisions and result in softer spectra at 10 GeV.