The Metallicity of Intergalactic Gas in Cosmic Voids

TL;DR

This study investigates the metallicity of intergalactic gas in cosmic voids using ultraviolet spectra, finding very low metal content and suggesting limited enrichment from star formation in these regions.

Contribution

First direct constraints on the metallicity of intergalactic gas in nearby cosmic voids, using non-detections of metal lines in high-quality UV spectra.

Findings

No metal lines detected in void Lya absorbers.

Metallicity limits Z < 10^{-1.8} Z_sun, lower than in galaxy filaments.

Void absorbers may be pristine or have very low metallicity.

Abstract

We have used the Hubble/STIS and FUSE archives of ultraviolet spectra of bright AGN to identify intergalactic Lya absorbers in nearby (z < 0.1) voids. From a parent sample of 651 Lya absorbers, we identified 61 void absorbers located more than 1.4/h_70 Mpc from the nearest L* or brighter galaxy. Searching for metal absorption in high-quality (S/N > 10) spectra at the location of three diagnostic metal lines (O VI 1032, C IV 1548, Si III 1206), we detected no metal lines in any individual absorber, or in any group of absorbers using pixel co-addition techniques. The best limits on metal-line absorption in voids were set using four strong Lya absorbers with N(H I) > 10^{14} cm^-2, with 3-sigma equivalent-width limits ranging from 8 mA (O VI), 7-15 mA (C IV), and 4-10 mA (Si III). Photoionization modeling yields metallicity limits Z < 10^{-1.8+/-0.4} Z_sun, from non-detections of C IV and O VI, some 6 times lower than those seen in Lya and OVI absorbers at z < 0.1. Although the void Lya absorbers could be pristine material, considerably deeper spectra are required to rule out a universal metallicity floor produced by bursts of early star formation, with no subsequent star formation in the voids. The most consistent conclusion derived from these low-z results, and similar searches at z = 3-5, is that galaxy filaments have increased their mean IGM metallicity by factors of 30-100 since z = 3.