The most luminous blue quasars at 3.0<z<3.3 -- III. LBT spectra and accretion parameters

Abstract

We present the analysis of the rest frame ultraviolet and optical spectra of 30 bright blue quasars at z3, selected to examine the suitability of AGN as cosmological probes. In our previous works, we found an unexpectedly high fraction (≈ 25 \%) of X-ray weak quasars in the sample. The latter sources also display a flatter UV continuum and a broader and fainter CIV profile in the archival UV data with respect to their X-ray normal counterparts. Here we present new observations with the LBT in both the zJ (rest-frame 2300-3100 A) and the KS (4750-5350 A) bands. We estimated black hole masses (M BH) and Eddington ratios (λ Edd) from the from the Hβ and MgII emission lines, finding that our z3 quasars are on average highly accreting ( λ Edd 1.2 and M BH 109.7M), with no difference in λ Edd or M BH between X-ray weak and X-ray normal quasars. From the zJ spectra, we derive flux and equivalent width of MgII and FeII, finding that X-ray weak quasars display higher FeII/MgII ratios with respect to typical quasars. FeII/MgII ratios of X-ray normal quasars are instead consistent with other estimates up to z6.5, corroborating the idea of already chemically mature BLRs at early cosmic time. From the KS spectra, we find that all the X-ray weak quasars present generally weaker [OIII] emission (EW<10 A) than the normal ones. The sample as a whole, however, abides by the known X-ray/[OIII] luminosity correlation, hence the different [OIII] properties are likely due to an intrinsically weaker [OIII] emission in X-ray weak objects, associated to the shape of the spectral energy distribution. We interpret these results in the framework of accretion-disc winds.