Identification of galaxies that experienced a recent major drop of star formation

TL;DR

This study develops a method to identify galaxies that recently experienced an abrupt decline in star formation, revealing a population in transition with unique properties, largely independent of AGN activity, and providing insights into galaxy evolution since redshift 2.

Contribution

The paper introduces a novel approach to detect galaxies with rapid star formation drops, expanding understanding of galaxy transition phases and their physical characteristics.

Findings

102 candidate galaxies identified with recent star formation drops

Candidates are mainly below the main sequence and near the passive-active boundary

Low AGN activity among candidates suggests other mechanisms drive star formation decline

Abstract

[abridged] Building upon a previous study, we define a method to blindly identify galaxies that underwent, and may still be undergoing, a fast downfall of their star-formation activity, that is, a more than 80% drop in star-formation rate (SFR) occurring in less than 500 Myr. Modeling galaxies' SED with a delayed-$\tau$ star formation history (SFH), with and without allowing an instantaneous SFR drop within the last hundreds Myr, we isolate 102 candidates out of a subsample of 6,680 galaxies classified as star-forming from the UVJ criterion in the ZFOURGE catalogues. These galaxies are mostly located in the lower part of the SFR-M$_*$ main sequence (MS) and extend up to a factor 100 below it. They also lie close to the limit between the passive and active regions on the UVJ diagram, indicating that they are in a transition phase. We show that the selected candidates have different physical properties compared to galaxies with similar UVJ colors, namely, lower star-formation rates and different stellar masses. The morphology of the candidates show no preference for a particular type. Among the 102 candidates, only 4 show signs of an AGN activity (from X-ray luminosity or UV-IR SED fitting decomposition). This low fraction of AGNs among the candidates implies that AGN activity may not be the main driver of the recent downfall, although timescale differences and duty cycle must be taken into account. We finally attempt to recover the past position of these galaxies on the SFR-M$_*$ plane, before the downfall of their star-formation and show that some of them were in the starburst region before and are back on the MS. These candidates constitute a promising sample that need more investigation in order to understand the different mechanisms at the origin of the star formation decrease of the Universe since $z$$\sim$2.