# Fast Outflows Identified in Early Star-Forming Galaxies at $z = 5-6$

**Authors:** Yuma Sugahara, Masami Ouchi, Yuichi Harikane, Nicolas Bouch\'e, Peter, D. Mitchell, J\'er\'emy Blaizot

arXiv: 1904.03106 · 2019-12-18

## TL;DR

This study measures galactic outflow velocities in early star-forming galaxies at redshifts 5-6, revealing high outflow speeds comparable to those at lower redshifts and a positive correlation with halo circular velocity, supporting theoretical models.

## Contribution

It provides the first detailed measurements of outflow velocities in galaxies at z=5-6 using ALMA and Keck spectra, and links outflow speeds to halo properties and redshift evolution.

## Key findings

- Outflow velocities are up to 700 km/s, three times higher than local galaxies.
- A positive correlation exists between outflow velocity and halo circular velocity.
- Outflow velocities at high redshift align with theoretical predictions.

## Abstract

We present velocities of galactic outflows in seven star-forming galaxies at $z=$5-6 with stellar masses of $M_* \sim10^{10.1}\ \rm{M_\odot}$. Although it is challenging to observationally determine the outflow velocities, we overcome this by using ALMA [CII]158 $\mu$m emission lines for systemic velocities and deep Keck spectra with metal absorption lines for velocity profiles available to date. We construct a composite Keck spectrum of the galaxies at $z=$5-6 with the [CII]-systemic velocities, and fit outflow-line profiles to the SiII1260, CII1335, and SiIV1394,1403 absorption lines in the composite spectrum. We measure the maximum (90%) and central outflow velocities to be $v_\rm{max}=700^{+180}_{-110}\ \rm{km\ s^{-1}}$ and $v_\rm{out}= 400^{+100}_{-150}\ \rm{km\ s^{-1}}$ on average, respectively, showing no significant differences between the outflow velocities derived with the low to high-ionization absorption lines. For $M_* \sim10^{10.1}\ \rm{M_\odot}$, we find that the $v_\rm{max}$ value of our $z=$5-6 galaxies is 3 times higher than those of $z\sim0$ galaxies and comparable to $z\sim2$ galaxies. Estimating the halo circular velocity $v_\rm{cir}$ from the stellar masses and the abundance matching results, we investigate a $v_\rm{max}$-$v_\rm{cir}$ relation. Interestingly, $v_\rm{max}$ for galaxies with $M_*=10^{10.0-10.8}\ \rm{M_\odot}$ shows a clear positive correlation with $v_\rm{cir}$ and/or the galaxy star formation rate over $z=$0-6 with a small scatter of $\simeq \pm 0.1$ dex, which is in good agreement with theoretical predictions. This positive correlation suggests that the outflow velocity is physically related to the halo circular velocity, and that the redshift evolution of $v_\rm{max}$ at fixed $M_*$ is explained by the increase in $v_\rm{cir}$ toward high redshift.

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Source: https://tomesphere.com/paper/1904.03106