The Qz5 Survey (I): How the HI Mass Density of the Universe Evolves With Cosmic Time
Abstract
We report that the neutral hydrogen (HI) mass density of the Universe (HI) increases with cosmic time since z 5, peaks at z 3, and then decreases toward z 0. This is the first result of Qz5, our spectroscopic survey of 63 quasars at z 5 with VLT/X-SHOOTER and Keck/ESI aimed at characterizing intervening HI gas absorbers at z 5. The main feature of Qz5 is the high resolution (R 7000 - 9000) of the spectra, which allows us to (1) accurately detect high column density HI gas absorbers in an increasingly neutral intergalactic medium at z 5 and (2) determine the reliability of previous HI measurements derived with lower resolution spectroscopy. We find 5 intervening Damped Lyα absorbers (DLAs) at z > 4.5, which corresponds to the lowest DLA incidence rate (0.0340.050.02) at z 2. We also measure the lowest HI at z 2 from our sample of DLAs and subDLAs, corresponding to HI = 0.560.820.31 × 108~M~Mpc-3 at z 5. Taking into account our measurements at z 5 and systematic biases in the DLA detection rate at lower spectral resolutions, we conclude that HI doubles from z 5 to z 3. From these results emerges a qualitative agreement between how the cosmic densities of HI gas mass, molecular gas mass, and star-formation rate build up with cosmic time.
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