# [O II] nebular emission from Mg II absorbers: Star formation associated   with the absorbing gas

**Authors:** Ravi Joshi, Raghunathan Srianand, Patrick Petitjean, Pasquier, Noterdaeme

arXiv: 1706.03075 · 2017-08-23

## TL;DR

This study detects nebular [O II] emission from 198 Mg II absorbers at redshifts 0.35 to 1.1, linking absorption features to star-forming galaxies and exploring their properties and evolution.

## Contribution

It provides the largest sample of [O II] emission from Mg II absorbers at low impact parameters, revealing correlations with redshift and absorber strength, and analyzing galaxy properties.

## Key findings

- [O II] luminosities indicate star formation rates of 0.5-20 M_sun/yr.
- Detection rate increases with Mg II equivalent width and redshift.
- Nebular line ratios are consistent with galaxy surveys and suggest typical metallicity and ionization parameters.

## Abstract

We present nebular emission associated with 198 strong Mg II absorbers at 0.35 $\le z \le$ 1.1 in the fibre spectra of quasars from the Sloan Digital Sky Survey. Measured [O II] luminosities (L$_{[O II]}$) are typical of sub-L$^{\star}$ galaxies with derived star formation rate (uncorrected for fibre losses and dust reddening) in the range of 0.5-20 ${\rm M_\odot\ yr^{-1}}$. Typically less than $\sim$ 3% of the Mg II systems with rest equivalent width, $W_{2796}$ $\ge$ 2 \AA, show L$_{[O II]} \ge 0.3$ L$^{\star}_{[O II]}$. The detection rate is found to increase with increasing $W_{2796}$ and $z$. No significant correlation is found between $W_{2796}$ and L$_{[O II]}$ even when we restrict the samples to narrow $z$-ranges. A strong correlation is seen between L$_{[O II]}$ and $z$. While this is expected from the luminosity evolution of galaxies, we show finite fibre size plays a very crucial role in this correlation. The measured nebular line ratios (like [O III]/[O II] and [O III]/H$\beta$) and their $z$ evolution are consistent with those of galaxies detected in deep surveys. Based on the median stacked spectra, we infer the average metallicity (log Z $\sim$8.3), ionization parameter (log $q$ $\sim$7.5) and stellar mass (log (M/M$_\odot$)$\sim$9.3). The Mg II systems with nebular emission typically have $W_{2796}$ $\ge 2$ \AA, Mg II doublet ratio close to 1 and W(Fe II$\lambda$2600)/$W_{2796}$ $\sim 0.5$ as often seen in damped Ly$\alpha$ and 21-cm absorbers at these redshifts. This is the biggest reported sample of [O II] emission from Mg II absorbers at low impact parameters ideally suited for probing various feedback processes at play in $z\le 1$ galaxies.

## Full text

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## Figures

35 figures with captions in the complete paper: https://tomesphere.com/paper/1706.03075/full.md

## References

81 references — full list in the complete paper: https://tomesphere.com/paper/1706.03075/full.md

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Source: https://tomesphere.com/paper/1706.03075