High-ionization coronal lines trace quasar-like activity in recently quenched galaxies at high redshift

Abstract

We report the detection of the high-ionization line [NeV]λ3427 in the JWST/NIRSpec archival spectra of 6 massive quenched galaxies at z 1.5-4.5, identified from a parent sample of 87 systems. With an ionization potential of approximately 97 eV, [NeV] can only be produced by strong nuclear activity in these massive systems, providing a clean and unambiguous tracer of highly accreting supermassive black holes uncontaminated by residual star formation. For 4 of the 6 [NeV]-detected systems, we detect broad Hα emission (FWHM 4000 km s-1), yielding black hole masses of M BH = 108.5-9.5\,M, consistent with local scaling relations with stellar mass and velocity dispersion. The [NeV] luminosities imply quasar-like bolometric outputs (L bol = 1045-46 erg s-1) and Eddington ratios of λ Edd ≈ 10-50%, with black hole accretion rates of a few M yr-1 that match or exceed the residual star formation rates in the most extreme cases. The strongest [NeV] emitters are preferentially found in the youngest post-starburst systems (Dn4000 1.3), while old quenched galaxies are systematically devoid of such activity, a trend independently reproduced by theoretical models. These results reveal that intense, radiatively efficient SMBH growth can persist several hundred Myr after the main quenching epoch, with duty cycles of approximately 100-200 Myr. They also underscore the importance of very high accretion episodes and rates in the theoretical models that seek to reproduce the earliest quenched galaxies in the universe.