The Evolution of Chemical Abundance in Quasar Broad Line Region

TL;DR

This study investigates the relationship between quasar broad line region metallicity, black hole mass, and luminosity using a large SDSS quasar sample, revealing correlations with mass and luminosity but not redshift, and suggests local metal enrichment as a cause.

Contribution

It provides the first large-scale analysis of BLR metallicity evolution across a wide range of black hole masses and luminosities, highlighting the lack of redshift dependence.

Findings

BLR metallicity correlates with black hole mass.

BLR metallicity correlates with bolometric luminosity.

BLR metallicity is higher than host galaxy metallicity by 0.3 to 1.0 dex.

Abstract

We study the relation between the metallicity of quasar broad line region (BLR) and black hole (BH) mass ($10^{7.5}M_{\odot} \sim 10^{10}M_{\odot}$) and quasar bolometric luminosity ($10^{44.6}erg/s \sim 10^{48} erg/s$) using a sample of $\sim$130,000 quasars at $2.25\leq z\leq 5.25$ from Sloan Digital Sky Survey (SDSS) Data Release 12 (DR12). We generate composite spectra by stacking individual spectra in the same BH mass (bolometric luminosity) and redshift bins and then estimate the metallicity of quasar BLR using metallicity-sensitive broad emission-line flux ratios based on the photoionization models. We find a significant correlation between quasar BLR metallicity and BH mass (bolometric luminosity) but no correlation between quasar BLR metallicity and redshift. We also compare the metallicity of quasar BLR and that of host galaxies inferred from the mass-metallicity relation of star-forming galaxy at $z\sim2.3$ and $z\sim3.5$. We find quasar BLR metallicity is 0.3 $\sim$ 1.0 dex higher than their host galaxies. This discrepancy cannot be interpreted by the uncertainty due to different metallicity diagnostic methods, mass-metallicity relation of galaxy, metallicity gradient in quasar host galaxies, BH mass estimation, the effect of different spectral energy distribution (SED) models, and a few other potential sources of uncertainties. We propose a possibility that the high metallicity in quasar BLR might be caused by metal enrichment from massive star formation in the nucleus region of quasars or even the accretion disk.