Evidence for evolutionary pathway-dependent black hole scaling relations

Abstract

Recent observations have identified an abundance of high-redshift active galactic nuclei (AGN) with supermassive black holes (BHs) that are over-massive compared to the local BH mass-total stellar mass (MBH-M) relation. MBH measurements at high-z are critical for probing the growth histories of BHs and their host galaxies, including BH seeding and evolution of the MBH-M relation. However, BH masses in high-z AGN are generally estimated from single-epoch measurements, which are anchored to local relations based on reverberation mapping and carry large systematic uncertainties. Alternate MBH detection methods such as dynamical measurements are more reliable but currently only possible in the local Universe or with strongly lensed systems. Recently, dynamical MBH measurements were made in a z2 lensed quiescent galaxy as well as a sample of six local galaxies identified as likely relics of common quiescent red nugget galaxies at cosmic noon. We compare the z2 red nugget and relic BHs to recent results for 4<z<11 AGN, quasars, and Little Red Dots. Intriguingly, the z2 galaxy and local relic galaxies all lie on both the local MBH-M relation for bulges and the 4<z<7 MBH-M relation. Our results suggest the MBH-M relation for bulges was likely in place at high-z and indicate careful consideration of different evolutionary pathways is needed when building BH scaling relations. While improvements to MBH estimates in AGN will increase our confidence in high-z BH masses, detecting BHs in relic galaxies and lensed galaxies presents a complementary probe of the high-z relations.

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