# The Ubiquitous Imprint of Radiative Acceleration in the Mean Absorption   Spectrum of Quasar Outflows

**Authors:** Llu\'is Mas-Ribas, Renate Mauland

arXiv: 1902.04085 · 2019-12-18

## TL;DR

This study constructs composite spectra of quasar outflows revealing that radiative acceleration, evidenced by line locking, is a common mechanism driving these outflows, confirmed across various quasar parameters.

## Contribution

First detection of line locking in BAL composite spectra, demonstrating the widespread role of radiation pressure in quasar outflow acceleration.

## Key findings

- Line locking detected in all composite spectra, including BALs.
- Broad absorption features are superpositions of narrow absorbers.
- Radiation pressure is confirmed as a prevalent acceleration mechanism.

## Abstract

Observational evidence revealing the main mechanisms that accelerate quasar outflows has proven difficult to obtain, due to the complexity of the absorption features that this gas produces in the spectra of the emission sources. We build 36 composite outflow spectra, covering a large range of outflow and quasar parameters, by stacking broad ($>450\,{\rm km\,s^{-1}}$) absorption line systems in the spectra of SDSS-III/BOSS DR12 quasars. The two lines of the atomic doublet of CIV, with a separation of $\approx 497\,{\rm km\,s^{-1}}$, as well as those of other species appear well resolved in most of our composites. This agrees with broad outflow troughs consisting in the superposition of narrow absorbers. We also report on the ubiquitous detection of the radiative-acceleration signature known as line locking in all our composite outflow spectra, including one spectrum strictly built from broad absorption line (BAL) systems. This is the first line-locking detection in BAL composite spectra. Line locking is driven by the CIV atomic doublet, and is visible on the blue side of most strong absorption transitions. Similar effects from the doublets of OVI, SiIV, or NV, however, seem to not be present. Our results confirm that radiation pressure is a prevalent mechanism for accelerating outflows in quasars.

## Full text

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## Figures

39 figures with captions in the complete paper: https://tomesphere.com/paper/1902.04085/full.md

## References

74 references — full list in the complete paper: https://tomesphere.com/paper/1902.04085/full.md

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Source: https://tomesphere.com/paper/1902.04085