Clues to the origin of Fermi Bubbles from OVIII/OVII line ratio

Abstract

We constrain the origin of Fermi Bubbles using 2D hydrodynamical simulations of both star formation driven and black hole accretion driven wind models. We compare our results with recent observations of OVIII to OVII line ratio within and near Fermi Bubbles. Our results suggest that independent of the driving mechanisms, a low luminosity (L 0.7-1× 1041 erg s-1) energy injection best reproduces the observed line ratio for which the shock temperature is ≈ 3× 106 K. Assuming the Galactic halo temperature to be 2× 106K, we estimate the shock velocity to be 300 km s-1 for a weak shock. The corresponding estimated age of the Fermi bubbles is 15-25 Myr. Such an event can be produced either by a star formation rate of 0.5 M yr-1 at the Galactic centre or a very low luminosity jet/accretion wind arising from the central black hole. Our analysis rules out any activity that generates an average mechanical luminosity 1041 as a possible origin of the Fermi Bubbles.