Cosmic evolution of the helium and oxygen abundances in type 2 Active Galactic Nuclei: Helium-loud AGNs

Abstract

We derive the helium and oxygen abundances in the Narrow Line Regions (NLRs) of 84 Active Galactic Nuclei (AGNs) spanning two redshift ranges: 65 objects at z \: < \: 0.2 and 19 objects at 2.8 z 6.8. Spectroscopic data in the optical rest-frame range [3000 λ(Å) 7000] from the JADES survey and from the literature were used to estimate He/H and O/H via the T e-method (7 objects) and strong-emission line calibrations (19 objects). Our results indicate that the ionization degree in AGNs increases toward higher redshifts, exhibiting a trend similar to that observed in star-forming galaxies. We find that the majority of our sample of AGNs at z \: > \: 2.8 show oversolar helium abundances and subsolar oxygen abundances. We identified, via the T e-method, an object (goods-s-mediumhst-58850; z=6.2615) with the highest helium abundance estimated to date, i.e. 12+( He/H)=11.64, corresponding to (He/He) 4.4. This result remains robust even when we adopt larger electron densities (varying N e from 500 to 10\:000 cm-3) in abundance estimates using the T e-method and empirical strong-line methods. We found marginal evidence for a decline in the He/H abundance ( 0.04 dex per redshift unit) toward lower redshifts. In contrast, we found evidence for an increase in O/H toward the local universe at a rate of approximately 0.06 dex per redshift unit.