Multiphase Plasma in Sub-Damped Lyman Alpha Systems: A Hidden Metal Reservoir

TL;DR

This study analyzes a sub-DLA system at z=2.656, revealing it contains significant hidden ionized metal reservoirs, which contribute substantially to the cosmic metal budget at that epoch.

Contribution

It introduces a method to estimate hot ionized hydrogen in sub-DLAs using O VI measurements, highlighting their role as major metal reservoirs.

Findings

Sub-DLAs contain substantial hot ionized hydrogen.

Sub-DLAs account for 6-22% of the total metal budget at z~2.5.

The absorber is not intrinsic to the quasar environment.

Abstract

We present a VLT/UVES spectrum of a proximate sub-damped Lyman-alpha (sub-DLA) system at z=2.65618 toward the quasar Q0331-4505 (z_qso=2.6785+/-0.0030). Absorption lines of O I, Si II, Si III, Si IV, C II, C III, C IV, Fe II, Al II, and O VI are seen in the sub-DLA, which has a neutral hydrogen column density log N(H I)=19.82+/-0.05. The absorber is at a velocity of 1820+/-250 km/s from the quasar; however, its low metallicity [O/H]=-1.64+/-0.07, lack of partial coverage, lack of temporal variations between observations taken in 2003 and 2006, and non-detection of N V imply the absorber is not a genuine intrinsic system. By measuring the O VI column density and assuming equal metallicities in the neutral and ionized gas, we determine the column density of hot ionized hydrogen in this sub-DLA, and in two other sub-DLAs with O VI drawn from the literature. Coupling this with determinations of the typical amount of warm ionized hydrogen in sub-DLAs, we confirm that sub-DLAs are a more important metal reservoir than DLAs, in total comprising at least 6-22% of the metal budget at z~2.5.