MgII Absorbers in High Resolution Quasar Spectra. I. Voigt Profile Models

TL;DR

This study provides detailed Voigt profile models, component distributions, and kinematic properties for 422 MgII absorbers in quasar spectra, offering insights into their physical characteristics and cosmic evolution.

Contribution

It introduces a comprehensive Voigt profile analysis of MgII absorbers, including component distributions and kinematic modeling, across a large sample with high-resolution spectra.

Findings

Average of 2.7 components per weak absorber and 10.3 per strong absorber.

Power-law slope of -1.45 for column density distribution.

Velocity dispersions of 25.4, 68.7, and 207.1 km/s for different components.

Abstract

We present the Voigt profile (VP) models, column densities, Doppler b parameters, kinematics, and distribution of components for 422 MgII absorbers found in a survey of 249 HIRES and UVES quasar spectra. The equivalent width range of the sample is 0.006 < W_r(2796) < 6.23 angstroms (A) and the redshift range is 0.19 < z < 2.55, with a mean of <z> = 1.18. Based on historical precedent, we classified 180 absorbers as weak systems (W_r(2796) < 0.3 A) and 242 as strong systems (W_r(2796) >= 0.3 A). Assuming a minimum number of significant components per system, the VP fitting, yielded a total of 2,989 components, with an average of 2.7 and 10.3 components found for the weak and strong MgII subsamples, respectively. The VP component line density for the full sample is 8.62 +/- 0.23 clouds/A. The distribution of VP component column density over the range 12.4 < log[N(MgII)] < 17.0 [ions cm^-2] is well modeled with a power-law slope of -1.45 +/- 0.01. The median Doppler b parameters are 4.5 +/- 3.5 km/s, 6.0 +/- 4.5 km/s and 5.7 +/- 4.4 km/s for the weak, strong, and full samples. We modeled the probability of component velocity splitting (the two-point velocity correlation function, TPCF) of our full sample using a three-component composite Gaussian function. Our resulting velocity dispersions are 25.4, 68.7, and 207.1 km/s, respectively. These data provide an excellent database for studying the cosmic evolution of MgII absorber kinematic evolution.