Quasar -- CIV forest cross-correlation with SDSS DR12

Abstract

We present a new determination of the large-scale clustering of the CIV forest (i.e., the absorption due to all CIV absorbers) using its cross-correlation with quasars in the Sloan Digital Sky Survey (SDSS) Data Release 12 (DR12). We fit a linear bias model to the measured cross-correlation. We find that the transmission bias of the CIV forest, bFc, at a mean redshift of z=2.3, obeys the relation (1+βc)bF c = -0.024 0.003. Here, βc is the linear redshift space distortion parameter of the CIV absorption, which can only be poorly determined at βc=1.1 0.6 from our data. This transmission bias is related to the bias of CIV absorbers and their host halos through the effective mean optical depth of the CIV forest, τc. Estimating a value τc(z) 0.01 from previous studies of the CIV equivalent width distribution, our measurement implies a CIV absorber bias near unity, with a large error due to uncertainties in both βc and τc. This makes it compatible with the higher DLA bias b DLA 2 measured previously from the cross-correlation of DLAs and the Lyman-α forest. We discuss the implications of the CIV absorber bias for the mass distribution of their host halos. More accurate determinations of τc(z) and βc are necessary to obtain a more robust measurement of this CIV absorber bias.