Tracing the History of Recent Bulge Star Formation in Active Galactic Nuclei

Abstract

We examine the relation between black hole accretion and bulge star formation as a function of look-back time (tau) in 20,541 obscured AGNs (with redshifts <z> ~ 0.1 and bolometric luminosities LBol ~ 1043--1045 erg s-1) optically selected from the Sloan Digital Sky Survey (SDSS). To quantify the most recently formed stars with ages less than typical AGN lifetimes, we estimate the differentiated specific star formation rate (SSFRtau) based on population synthesis analysis. Eddington ratio (lambda) is inferred using [O III]5007 luminosity and stellar velocity dispersion as proxies for LBol and black hole mass respectively. We find that when tau < tau0, SDSS AGNs follow a power law: lambda (SSFRtau)1.0-1.1; the relation flattens out when tau > tau0. The threshold timescale tau0 is ~ 0.1 (~ 1) Gyr in young (old) bulges. The scatter in the power laws is dominated by observational uncertainties. These results may provide useful constraints on models explaining the correlations between AGN activity and bulge star formation.