Black Hole Growth to z = 2 - I: Improved Virial Methods for Measuring MBH and L/LEdd

Abstract

We analyze several large samples of AGN in order to establish the best tools required to study the evolution of black hole mass (MBH) and normalized accretion rate (L/LEdd). The data include spectra from the SDSS, 2QZ and 2SLAQ surveys at z<2, and a compilation of smaller samples with 0<z<5. We critically evaluate the usage of the MgII(2798A) and CIV(1549A) lines, and adjacent continuum bands, as estimators of MBH and L/LEdd, by focusing on sources where one of these lines is observed together with Hbeta. We present a new, luminosity-dependent bolometric correction for the monochromatic luminosity at 3000A, L3000, which is lower by a factor of 1.75 than those used in previous studies. We also re-calibrate the use of L3000 as an indicator for the size of the broad emission line region (RBLR) and find that RBLR is proportional to L30000.62. We find that FWHM(MgII)(Hb) for all sources with FWHM(MgII)<6000 km/s. Beyond this FWHM, the MgII line width seems to saturate. The spectral region of the MgII line can thus be used to reproduce Hb-based estimates of MBH and L/LEdd, with negligible systematic differences and a scatter of 0.3 dex. The width of the CIV line, on the other hand, shows no correlation with either that of the Hb or the MgII lines and we could not identify the reason for this discrepancy. The scatter of MBH(CIV), relative to MBH(Hb) is of almost 0.5 dex. Moreover, 46% of the sources have FWHM(CIV)<FWHM(Hb), in contrast with the basic premise of the virial method, which predicts FWHM(CIV)/FWHM(Hbeta)~1.9. Thus, the CIV line cannot be used to obtain precise estimates of MBH. We conclude by presenting the observed evolution of MBH and L/LEdd with cosmic epoch. The steep rise of L/LEdd with redshift up to z~1 flattens towards the expected maximal value of L/LEdd~1, with lower-MBH sources showing higher values of L/LEdd at all redshifts. [Abridged]