APEX at the QSO MUSEUM: molecular gas reservoirs associated with z3 quasars and their link to the extended Lyα emission

Abstract

Cool gas (T104~K) traced by hydrogen Lyα emission is now routinely detected around z3 quasars, but little is known about their molecular gas reservoirs. Here, we present an APEX spectroscopic survey of the CO(6-5), CO(7-6) and [CI](2-1) emission lines for 9 quasars from the QSO MUSEUM survey which have similar UV luminosities, but very diverse Lyα nebulae. These observations (~ rms~=2.6~mJy in 300~km~s-1) detected three CO(6-5) lines with 3.4≤ I CO(6-5) ≤5.1~Jy~km~s-1, 620≤FWHM≤707~km~s-1, and three [CI](2-1) lines with 2.3≤ I [CI](2-1) ≤15.7~Jy~km~s-1, 329≤FWHM≤943~km~s-1. For the CO and [CI] detected sources, we constrain the molecular gas reservoirs to be MH2 = (0.4-6.9) × 1011 M, while the non-detections imply MH2 < 1.1× 1011 M. We compare our observations with the extended Lyα properties to understand the link between the cool and the molecular gas phases. We find large velocity shifts between the bulk of Lyα and the molecular gas systemic redshift in five sources (from -400 to +1200~km~s-1). The sources with the largest shifts have the largest Lyα line widths in the sample, suggesting more turbulent gas conditions and/or large-scale inflows/outflows around these quasars. We also find that the brightest (I[CI](2-1)=15.73.7~ Jy~km~s-1) and the widest (FWHM900~km~s-1) lines are detected for the smallest and dimmest Lyα nebulae. From this, we speculate that host galaxy obscuration can play an important role in reducing the ionizing and Lyα photons able to escape to halo scales, and/or that these systems are hosted by more massive halos.