The Quasar Feedback Survey: Revealing the importance of sensitive radio imaging for AGN identification deeper into the radio-quiet regime

Abstract

We present new sub-arcsecond (0.3-1 arcsec; 1--3\,kpc) VLA imaging at 1.4\,GHz and 6\,GHz of 29 optically-selected, [O~ iii] luminous (L [O III] > 1042.1\,erg\,s-1), z<0.2 quasars drawn from the expanded Quasar Feedback Survey (QFeedS; with L1.4\,GHz = 1022.6--1026.3\,W\,Hz-1). These 29 new objects occupy the low end of the radio-power distribution (L1.4\,GHz=1022.63--1023.45\,W\,Hz-1) in the QFeedS sample and are nominally `radio quiet'. Despite this, we find widespread evidence of AGN-driven synchrotron activity. Nearly 31\,per\,cent exhibit resolved radio structures on 0.1--20\,kpc scales consistent with compact jets or wind-driven outflows, and 90\,per\,cent display steep spectra (α -1) indicative of optically thin synchrotron emission. Combining morphology, spectral index and brightness-temperature diagnostics, at least 38\,per\,cent of the sample show clear AGN signatures that cannot be explained by star formation alone. These constitute the first results from the expanded QFeedS (now 71 quasars spanning ≈ 4 dex in radio power) and demonstrate that compact, low-power jets and AGN shocks are common deep inside the radio-quiet regime. A thorough understanding of feedback processes from quasars, deep into the `radio-quiet' regime, will be obtained by connecting these high resolution radio observations with multi-wavelength observations.