# FRII{\sl{CAT}}: A FIRST catalog of FR~II radio galaxies

**Authors:** A. Capetti (INAF-OA To), F. Massaro (UniTO, INFN-To, INAF-AO To), R., D. Baldi (University of Southampton)

arXiv: 1703.03427 · 2017-05-10

## TL;DR

This paper presents FRII{	extsl{CAT}}, a catalog of 122 FR~II radio galaxies with detailed host galaxy properties, revealing differences between low and high excitation galaxies and challenging traditional classifications based on radio power.

## Contribution

The paper introduces a new, comprehensive catalog of FR~II radio galaxies with detailed host galaxy and emission properties, expanding understanding of radio galaxy classifications.

## Key findings

- FRII{	extsl{CAT}} contains 122 FR~II radio galaxies with detailed host properties.
- Low excitation galaxies are mostly luminous, red, early-type galaxies with massive black holes.
- Most FR~IIs have radio powers below the traditional FR~I/II transition value.

## Abstract

We built a catalog of 122 FR~II radio galaxies, called FRII{\sl{CAT}}, selected from a published sample obtained by combining observations from the NVSS, FIRST, and SDSS surveys. The catalog includes sources with redshift $\leq 0.15$, an edge-brightened radio morphology, and those with at least one of the emission peaks located at radius $r$ larger than 30 kpc from the center of the host. The radio luminosity at 1.4 GHz of the \FRII\ sources covers the range $L_{1.4} \sim 10^{39.5} - 10^{42.5}$ $\ergs$. The \FRII\ catalog has 90\% of low and 10\% of high excitation galaxies (LEGs and HEGs), respectively. The properties of these two classes are significantly different. The FRII{\sl{CAT}} LEGs are mostly luminous ($-20 \gtrsim M_r \gtrsim -24$), red early-type galaxies with black hole masses in the range $10^8 \lesssim M_{\rm BH} \lesssim 10^9 M_\odot$; they are essentially indistinguishable from the FR~Is belonging to the FRI{\sl{CAT}}. The HEG FR~IIs are associated with optically bluer and mid-IR redder hosts than the LEG FR~IIs and to galaxies and black holes that are smaller, on average, by a factor $\sim$2.   FR~IIs have a factor $\sim$ 3 higher average radio luminosity than FR~Is. Nonetheless, most ($\sim 90$ \%) of the selected FR~IIs have a radio power that is lower, by as much as a factor of $\sim$100, than the transition value between FR~Is and FR~IIs found in the 3C sample. The correspondence between the morphological classification of FR~I and FR~II and the separation in radio power disappears when including sources selected at low radio flux thresholds, which is in line with previous results. In conclusion, a radio source produced by a low power jet can be edge brightened or edge darkened, and the outcome is not related to differences in the optical properties of the host galaxy.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1703.03427/full.md

## Figures

145 figures with captions in the complete paper: https://tomesphere.com/paper/1703.03427/full.md

## References

40 references — full list in the complete paper: https://tomesphere.com/paper/1703.03427/full.md

---
Source: https://tomesphere.com/paper/1703.03427