Launching of hot gas outflow by disc-wide supernova explosions

Abstract

Galactic gas outflows are driven by stellar feedback with dominant contribution from supernovae (SN) explosions. The question of whether the energy deposited by SNe initiates a large scale outflow or gas circulation on smaller scales -- between discs and intermediate haloes, depends on SN rate and their distribution in space and time. We consider here gas circulation by disc-wide unclustered SNe with galactic star formation rate in the range from 6× 10-4 to 6× 10-2~M~yr-1~kpc-2, corresponding to mid-to-high star formation observed in galaxies. We show that such disc-wide SN explosion regime can form circulation of warm (T 104 K) and cold (T<103 K) phases within a few gas scale heights, and elevation of hot (T>105 K) gas at higher (z>1 kpc) heights. We found that the threshold energy input rate for hot gas outflows with disc-wide supernovae explosions is estimated to be of the order 4× 10-4~erg~s-1~cm-2. We discuss the observational manifestations of such phenomena in optical and X-ray bands. In particular, we found that for face-on galaxies with SF (_ SF>0.02~M~yr-1~kpc-2), the line profiles of ions typical for warm gas show a double-peak shape, corresponding to out-of-plane outflows. In the X-ray bands, galaxies with high SF rates (_ SF>0.006~M~yr-1~kpc-2) can be bright, with a smooth surface brightness in low-energy bands (0.1--0.3~keV) and patchy at higher energies (1.6--8.3~keV).