# Sub-damped Lyman alpha systems in the XQ-100 survey I -- Identification   and contribution to the cosmological HI budget

**Authors:** Trystyn A. M. Berg, Sara L. Ellison, Ruben Sanchez-Ramirez, Sebastian, Lopez, Valentina D'Odorico, George D. Becker, Lise Christensen, Guido Cupani,, Kelly D. Denney, Gabor Worseck

arXiv: 1907.07703 · 2019-07-31

## TL;DR

This study identifies 155 sub-damped Lyman alpha systems in the XQ-100 survey to assess their contribution to the universe's neutral hydrogen mass, revealing they account for 10-20% of the total HI density at redshifts 2-5.

## Contribution

First large, blindly selected sample of subDLAs in XQ-100, evaluating spectral resolution effects and metal-line identification biases on HI mass density estimates.

## Key findings

- SubDLAs contribute 10-20% to the cosmic HI mass density at z=2-5.
- Metal-line selection misses 75 subDLAs compared to HI absorption detection.
- No significant evolution in subDLA properties over redshift range studied.

## Abstract

Sub-damped Lyman alpha systems (subDLAs; HI column densities of 19.0<=logN(HI)<20.3) are rarely included in the cosmic HI census performed at redshifts z>=1.5, yet are expected to contribute significantly to the overall HI mass budget of the Universe. In this paper, we present a blindly selected sample of 155 subDLAs found along 100 quasar sightlines (with a redshift path length X=475) in the XQ-100 survey to investigate the contribution of subDLAs to the HI mass density of the Universe. The impact of X-Shooter's spectral resolution on sub-DLA identification is evaluated, and found to be sufficient for reliably finding absorbers with logN(HI)>=18.9. We compared the implications of searching for subDLAs solely using HI absorption versus the use of additional metal lines to confirm the identification, and found that metal-selection techniques would have missed 75 subDLAs. Using a bootstrap-Monte Carlo simulation, we computed the column density distribution function (f(N,X)) and the cosmological HI mass density of subDLAs and compared with our previous work based on the XQ-100 damped Lyman alpha systems. We do not find any significant redshift evolution in f(N,X) or cosmological HI mass density for subDLAs. However, subDLAs contribute 10-20 per cent of the total cosmological HI mass density measured at redshifts 2<z<5 (agreeing with previous measurements), and thus have a small but significant contribution to the HI budget of the Universe.

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Source: https://tomesphere.com/paper/1907.07703