The low-frequency properties of FR0 radio galaxies

Alessandro Capetti (1); Ranieri D. Baldi (2); Marisa Brienza (3,4),; Raffaella Morganti (5,6); Gabriele Giovannini (3,4) ((1) INAF - Osservatorio; Astrofisico di Torino; Italy; (2) School of Physics; Astronomy; University; of Southampton; UK; (3) Dipartimento di Fisica e Astronomia; Universita' di; Bologna; Italy; (4) INAF - Istituto di Radio Astronomia; Italy (5) ASTRON,; the Netherlands Institute of Radio Astronomy; the Netherlands; (6) University; of Groningen; the Netherlands)

arXiv:1910.06618·astro-ph.GA·November 20, 2019

The low-frequency properties of FR0 radio galaxies

Alessandro Capetti (1), Ranieri D. Baldi (2), Marisa Brienza (3,4),, Raffaella Morganti (5,6), Gabriele Giovannini (3,4) ((1) INAF - Osservatorio, Astrofisico di Torino, Italy, (2) School of Physics, Astronomy, University, of Southampton, UK

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TL;DR

This study investigates the low-frequency radio properties of FR0 galaxies, revealing their compactness, spectral behavior, and lack of extended emission, which enhances understanding of their nature and emission mechanisms.

Contribution

It provides the first detailed low-frequency analysis of FR0 radio galaxies, confirming their compactness and spectral characteristics with new observational data.

Findings

01

Most FR0s lack extended emission at low frequencies.

02

The majority have flat or inverted spectra between 150 MHz and 1.4 GHz.

03

Approximately 75% show a convex spectrum with a gradual steepening at higher frequencies.

Abstract

Using the Alternative Data Release of the TIFR GMRT Sky Survey (TGSS), we studied the low-frequency properties of FR0 radio galaxies, the large population of compact radio sources associated with red massive early-type galaxies revealed by surveys at 1.4 GHz. We considered TGSS observations from FR0CAT, a sample formed by 104 FR0s at z<0.05: all but one of them are covered by the TGSS, and 43 of them are detected above a 5 sigma limit of 17.5 mJy. No extended emission has been detected around the FR0s, corresponding to a luminosity limit of < 4 10^23 W/Hz over an area of 100 kpc x 100 kpc. All but eight FR0s have a flat or inverted spectral shape (alpha < 0.5) between 150 MHz and 1.4 GHz: this spectral behavior confirms the general paucity of optically thin extended emission within the TGSS beam, as is expected for their compact 1.4 GHz morphology. Data at 5 GHz were used to build…

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