# The XXL Survey: XXXVI. Evolution and black hole feedback of   high-excitation and low-excitation radio galaxies in XXL-S

**Authors:** Andrew Butler, Minh Huynh, Anna Kapinska, Ivan Delvecchio, Vernesa, Smolcic, Lucio Chiappetti, Elias Koulouridis, and Marguerite Pierre

arXiv: 1904.12507 · 2019-05-22

## TL;DR

This study analyzes the evolution of high- and low-excitation radio galaxies in the XXL-S field, revealing different evolutionary patterns and their implications for galaxy feedback mechanisms over cosmic time.

## Contribution

It provides the first detailed measurement of the evolution of RL HERGs and LERGs' radio luminosity functions and kinetic luminosity densities up to redshift 1.3, comparing results with galaxy evolution models.

## Key findings

- LERGs show weak evolution in luminosity functions.
- RL HERGs exhibit stronger evolution than LERGs.
- LERGs dominate kinetic output across all redshifts.

## Abstract

The evolution of the comoving kinetic luminosity densities ($\Omega_{\rm{kin}}$) of the radio loud (RL) high-excitation radio galaxies (RL HERGs) and the low-excitation radio galaxies (LERGs) in the XXL-S field is presented. The wide area and deep radio and optical data of XXL-S have allowed the construction of the radio luminosity functions (RLFs) of the RL HERGs and LERGs across a wide range in radio luminosity out to high redshift ($z = 1.3$). The LERG RLFs display weak evolution: $\Phi (z)$ $\propto$ (1+$z$)$^{0.67 \pm 0.17}$ in the pure density evolution (PDE) case and $\Phi (z)$ $\propto$ (1+$z$)$^{0.84 \pm 0.31}$ in the pure luminosity evolution (PLE) case. The RL HERG RLFs demonstrate stronger evolution than the LERGs: $\Phi (z)$ $\propto$ (1+$z$)$^{1.81 \pm 0.15}$ for PDE and $\Phi (z)$ $\propto$ (1+$z$)$^{3.19 \pm 0.29}$ for PLE. Converting $L_{\rm{1.4 GHz}}$ into kinetic luminosities, the evolution of $\Omega_{\rm{kin}}$ was calculated for the RL HERGs and LERGs and compared to the predictions from simulations. The prediction for the evolution of radio mode feedback in the Semi-Analytic Galaxy Evolution model is consistent with the $\Omega_{\rm{kin}}$ evolution for all XXL-S RL AGN, indicating that RL AGN may be able to balance the radiative cooling of the hot phase of the IGM. Simulations that predict the $\Omega_{\rm{kin}}$ evolution of LERG equivalent populations show similar slopes to the XXL-S LERG evolution, indicating that LERGs are well described by models of SMBHs that slowly accrete hot gas. On the other hand, models of RL HERG equivalent populations differ in their predictions. While LERGs dominate the kinetic luminosity output of RL AGN at all redshifts, the evolution of the RL HERGs in XXL-S is weaker compared to what other studies have found. This implies that radio mode feedback from RL HERGs is more prominent at lower redshifts than was previously thought.

## Full text

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## Figures

29 figures with captions in the complete paper: https://tomesphere.com/paper/1904.12507/full.md

## References

101 references — full list in the complete paper: https://tomesphere.com/paper/1904.12507/full.md

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Source: https://tomesphere.com/paper/1904.12507