The Last Eight-Billion Years of Intergalactic SiIV Evolution

TL;DR

This study analyzes the evolution of intergalactic SiIV over the last eight billion years using Hubble Space Telescope data, revealing a steady increase in SiIV mass density and comparing ionic ratios across redshifts.

Contribution

It provides the first low-redshift survey of SiIV absorption systems, quantifies their distribution and evolution, and compares ionic ratios with higher redshift data.

Findings

SiIV absorber line density at low redshift is 1.4 per unit absorption distance.

The SiIV mass density shows a slow, steady increase from redshift 5.5 to 0.

The ionic ratio N(Si+3)/N(C+3) is consistent across redshifts, with median 0.16.

Abstract

We identified 24 SiIV absorption systems with z <~ 1 from a blind survey of 49 low-redshift quasars with archival Hubble Space Telescope ultraviolet spectra. We relied solely on the characteristic wavelength separation of the doublet to automatically detect candidates. After visual inspection, we defined a sample of 20 definite (group G = 1) and 4 "highly-likely" (G = 2) doublets with rest equivalent widths W_r for both lines detected at > 3 sigma. The absorber line density of the G = 1 doublets was dN_SiIV/dX = 1.4+0.4/-0.3 for log N(Si+3) > 12.9. The best-fit power law to the G = 1 frequency distribution of column densities f(N(Si+3)) had normalization k = (1.2+0.5/-0.4) x 10^-14 cm2 and slope alpha = -1.6+0.3/-0.3. Using the power-law model of f(N(Si+3)), we measured the Si+3 mass density relative to the critical density: Omega(Si+3) = (3.7+2.8/-1.7) x 10^-8 for 13 < log N(Si+3) < 15. From Monte Carlo sampling of the distributions, we estimated our value to be a factor of 4.8+3.0/-1.9 higher than the 2 < z < 4.5 <Omega(Si+3)>. From a simple linear fit to Omega(Si+3) over the age of the Universe, we estimated a slow and steady increase from z = 5.5 --> 0 with dOmega/dt_age = (0.61+/-0.23) x 10^-8 Gyr^-1. We compared our ionic ratios N(Si+3)/N(C+3) to a 2 < z < 4.5 sample and concluded, from survival analysis, that the two populations are similar, with median <N(Si+3)/N(C+3)> = 0.16.