Merging Galaxies in Isolated Environments II. Evolution of Star Formation and Accretion Activity during the Merging Process

Abstract: It is now well known that certain massive galaxies undergo enormous enhancements in their SFR when they undergo major mergers(100x). To analyse the SF enhancement and AGN fraction evolution during the merger process, we use a more timeline-like merger sequence. Also, to determine the relation between the SF enhancement in mergers and the morphology of the galaxies involved. Taking advantage of the Mstr and SFR of 600 nearby isolated mergers from our previous study, we calculate the distance of our galaxies from the SF MS, which we refer to as SFmode. We analyse how the SFmode varies during the merger process, for morphology and Mstr. We also analyse the AGN content of our mergers, using multiple diagnostics based on emission line ratios and WISE colours. We observe that, overall, merging galaxies show a SFmode that is governed by their morphology. Spirals typically show high SFmode values while highly-disturbed galaxies are generally even more enhanced (0.8dex and 1dex above the MS, resp). On the contrary, elliptical and lenticular galaxies show the lowest SF modes, as expected. However, even they show SF enhancement compared to their unperturbed counterparts (their median SFmode is within the 1-sigma scatter of the MS, and this can occur even before the galaxies have coalesced). We see a trend for SFmode to gradually increase with increasing merger stage. We do not find a clear dependency of the observed AGN fraction on merger stage for the majority of our classification methods. We find mergers can significantly enhance SF in galaxies of all morphologies. For early-type galaxies, this could suggest that some gas was present prior to the merger which may be triggered to form stars by the tidal interaction. As the SF enhancement continues throughout the merger process, this suggests that the enhancement may be a long-lived event, contrary to the short starbursts seen in some models.