# Probing Large Galaxy Halos at $z\sim0$ with Automated $\rm Ly   \alpha$-Absorption Matching

**Authors:** David M. French, Bart P. Wakker

arXiv: 1703.04618 · 2017-03-17

## TL;DR

This study uses archival spectra to analyze the circumgalactic medium around nearby galaxies, revealing a strong anti-correlation between Lyα absorption strength and impact parameter, and a preference for highly-inclined galaxies.

## Contribution

It introduces a likelihood-based method for matching galaxies to Lyα absorbers and provides new insights into the geometry of the circumgalactic medium at low redshift.

## Key findings

- Anti-correlation between Lyα EW and impact parameter normalized by virial radius.
- Galaxies with Lyα absorbers are more highly inclined than average.
- No correlation found between Lyα absorption and azimuth angle.

## Abstract

We present initial results from an ongoing large-scale study of the circumgalactic medium in the nearby Universe ($cz \leq 10,000$ km/s), using archival Cosmic Origins Spectrograph spectra of background quasi-stellar objects. This initial sample contains 33 sightlines chosen for their proximity to large galaxies (D > 25 kpc) and high signal-to-noise ratios (S/N > 10), yielding 48 Ly$\alpha$ absorption lines that we have paired with 33 unique galaxies, with 29 cases where multiple absorbers within a single sightline are paired with the same galaxy. We introduce a likelihood parameter to facilitate the matching of galaxies to absorption lines in a reproducible manner. We find the usual anti-correlation between Ly$\alpha$ equivalent width (EW) and impact parameter ($\rho$) when we normalize by galaxy virial radius ($R_{vir}$). Galaxies associated with a Ly$\alpha$ absorber are found to be more highly-inclined than galaxies in the survey volume at a >99% confidence level (equivalent to $\sim 3.6 \sigma$ for a normal distribution). In contrast with suggestions in other recent papers of a correlation with azimuth angle for Mg II absorption, we find no such correlation for Ly$\alpha$.

## Full text

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## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/1703.04618/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1703.04618/full.md

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Source: https://tomesphere.com/paper/1703.04618