Can X-ray Observations Improve Optical-UV-based Accretion-Rate Estimates for Quasars?

Abstract

Current estimates of the normalized accretion rates of quasars (L/LEdd), rely on measuring the velocity widths of broad optical-UV emission lines (e.g., Hβ and Mg II λ2800). However, such lines tend to be weak or inaccessible in the most distant quasars, leading to increasing uncertainty in L/LEdd estimates at z > 6. Utilizing a carefully selected sample of 53 radio-quiet quasars that have Hβ and C IV λ1549 spectroscopy as well as Chandra coverage, we searched for a robust accretion-rate indicator for quasars, particularly at the highest-accessible redshifts (z 6-7). Our analysis explored relationships between the Hβ-based L/LEdd, the equivalent width (EW) of C IV, and the optical-to-X-ray spectral slope (aox). Our results show that EW(C IV) is the strongest indicator of the Hβ-based L/LEdd parameter, consistent with previous studies, although significant scatter persists particularly for sources with weak C IV lines. We do not find evidence for the aox parameter improving this relation, and we do not find a significant correlation between aox and Hβ-based L/LEdd. This absence of an improved relationship may reveal a limitation in our sample. X-ray observations of additional luminous sources, found at z 1, may allow us to mitigate the biases inherent in our archival sample and test whether X-ray data could improve L/LEdd estimates. Furthermore, deeper X-ray observations of our sources may provide accurate measurements of the hard-X-ray power-law photon index (), which is considered an unbiased L/LEdd indicator. Correlations between EW(C IV) and aox with -based L/LEdd may yield a more robust prediction of a quasar normalized accretion rate.