Tracing Radio AGN-Driven Quenching in Post-Starburst Galaxies at Cosmic Noon

TL;DR

This study investigates the link between radio-mode AGN activity and star formation quenching in post-starburst galaxies during cosmic noon, finding evidence for weak AGN activity potentially contributing to galaxy evolution.

Contribution

It provides the first detailed radio continuum analysis of post-starburst galaxies at 0.5<z<3, revealing low detection fractions and weak AGN signatures, highlighting a possible role of radio feedback in galaxy quenching.

Findings

Radio detection fraction of PSBs is only 0.8%, rising to 5% for massive PSBs.

Detected PSBs have radio luminosities suggesting AGN origin, not star formation.

Stacking reveals weak radio signals in undetected massive PSBs, indicating low-luminosity AGN activity.

Abstract

We present a radio continuum study of photometrically selected cosmic noon (0.5<z<3) post-starburst galaxies (PSBs) in the UKIDSS Deep Survey (UDS) field to assess if radio-mode Active Galactic Nuclei (AGN) are linked to the quenching of star formation at cosmic noon. Our cross-matching using the deep Very Large Array (VLA) imaging at 1.4 GHz results in a mean radio detection fraction ($f_{det}$) of only 0.8$\%$ for PSBs above a radio luminosity threshold of $L_{\rm 1.4 GHz} \geq 10^{24}$ W Hz$^{-1}$, increasing to 5$\pm2\%$ for massive PSBs with stellar masses M$_*>10^{11}$M$_\odot$. Massive PSBs have a comparable detection fraction to that of massive quiescent galaxies ($f_{det}=8\pm1\%$), and both classes have lower fractions than that of massive star-forming galaxies ($f_{det}=13\pm1\%$) in the same field. The radio luminosities of detected PSBs, ${\rm L}_{1.4}\sim 10^{22.8}-10^{24.9}$W/Hz, exceed those from star formation by a median factor of 37 indicative of a possible AGN origin. Their compact morphologies ($\lesssim15$ kpc at $z_{med}=1.5$) suggest low-luminosity AGN with less powerful jets. Stacking the undetected PSBs reveals a weak radio detection ($3.9\sigma$) in the highest mass bin (M$_*>10^{11}$M$_\odot$). In contrast, 1.4 GHz detected quiescent galaxies have radio luminosities reaching radio-loud levels, and a higher prevalence of extended morphologies indicative of large-scale jetted AGN. The AGN contribution is also detected in stacked measurements of quiescent galaxies. Overall, our results support a short radio AGN duty cycle for PSBs, characterized by weak radio jets, suggesting radio-driven maintenance mode feedback may become important at older ages.