Eddington Ratios of Dust-obscured Quasars at z 1: Evidence Supporting Dust-obscured Quasars as Young Quasars

Abstract

Dust-obscured quasars have been suspected as the intermediate stage galaxies between merger-driven star-forming galaxies and unobscured quasars. This merger-driven galaxy evolution scenario suggests that dust-obscured quasars exhibit higher Eddington ratios (λ Edd) than those of unobscured quasars. However, their high dust obscuration poses challenges to accurately measuring their λ Edd using commonly employed bolometric luminosity (L bol) and black hole (BH) mass (M BH) estimators based on the ultraviolet (UV) or optical luminosity. Recently, Kim et al. (2023) established new estimators for L bol and M BH based on mid-infrared (MIR) continuum luminosity (L MIR), which are less affected by dust obscuration. These estimators enable the study of a large number of dust-obscured quasars across a wide redshift range. In this study, we measure the λ Edd values of 30 dust-obscured quasars at z 1, the largest sample size to date, using the L MIR-based L bol and M BH estimators. Our findings reveal that dust-obscured quasars exhibit significantly higher λ Edd values compared to unobscured quasars. Moreover, we confirm that the enhanced λ Edd values of dust-obscured quasars maintain consistency across the redshift span of 0 to 1. Our results strongly support the picture that dust-obscured quasars are in the earlier stage than unobscured quasars in the merger-driven galaxy evolutionary track.