NGC3801 caught in the act: A post-merger starforming early-type galaxy with AGN-jet feedback

TL;DR

This study presents the first UV imaging and stellar analysis of NGC 3801, revealing a post-merger galaxy with young star-forming regions and evidence of impending AGN jet feedback that may quench star formation.

Contribution

It provides new observational evidence of AGN jet feedback effects in a post-merger early-type galaxy, combining UV, optical, and radio data for the first time.

Findings

Presence of young star-forming regions aged 100-500 Myr

Evidence of ionised gas outflows and decoupled gas core

Expanding radio jet shocks are about to impact outer gas regions

Abstract

In the current models of galaxy formation and evolution, AGN feedback is crucial to reproduce galaxy luminosity function, colour-magnitude relation and M-sigma relation. However, if AGN-feedback can indeed expel and heat up significant amount of cool molecular gas and consequently quench star formation, is yet to be demonstrated observationally. Only in four cases so far (Cen A, NGC 3801, NGC 6764 and Mrk 6), X-ray observations have found evidences of jet-driven shocks heating the ISM. We chose the least-explored galaxy, NGC 3801, and present the first ultraviolet imaging and stellar population analysisis of this galaxy from GALEX data. We find this merger-remnant early-type galaxy to have an intriguing spiral-wisp of young star forming regions (age ranging from 100--500 Myr). Taking clues from dust/PAH, HI and CO emission images we interpret NGC 3801 to have a kinamatically decoupled core or an extremely warped gas disk. From the HST data we also show evidence of ionised gas outflow similar to that observed in HI and molecular gas (CO) data, which may have caused the decline of star formation leading to the red optical colour of the galaxy. However, from these panchromatic data we interpret that the expanding shock shells from the young ($\sim$2.4 million years) radio jets are yet to reach the outer gaseous regions of the galaxy. It seems, we observe this galaxy at a rare stage of its evolutionary sequence where post-merger star formation has already declined and new powerful jet feedback is about to affect the gaseous star forming outer disk within the next 10 Myr, to further transform it into a red-and-dead early-type galaxy.