The LOFAR view of giant, early-type galaxies: radio emission from active   nuclei and star formation

A. Capetti (1) M. Brienza (2,3) B. Balmaverde (1) R.D. P.N. Best (4); R.D. Baldi (3) A. Drabent (5) G. Gurkan (5) H.J.A. Rottgering (6) C. Tasse; (7,8) B. Webster (9) ((1) INAF - Osservatorio Astrofisico di Torino; Pino; Torinese; Italy (2) Dipartimento di Fisica e Astronomia; Universit\`a di; Bologna; Bologna; Italy (3) INAF - Istituto di Radio Astronomia; Bologna,; Italy (4) SUPA; Institute for Astronomy; Royal Observatory; Blackford Hill,; Edinburgh; UK (5) Th\"uringer Landessternwarte; Tautenburg; Germany (6); Leiden Observatory; Leiden University; Leiden; The Netherlands (7) GEPI &; USN; Observatoire de Paris; Universit\'e PSL; CNRS; Meudon; France (8); Department of Physics & Electronics; Rhodes University; Grahamstown; South; Africa (9) The Open University; Walton Hall; Milton Keynes; UK)

arXiv:2202.08593·astro-ph.GA·April 20, 2022

The LOFAR view of giant, early-type galaxies: radio emission from active nuclei and star formation

A. Capetti (1) M. Brienza (2,3) B. Balmaverde (1) R.D. P.N. Best (4), R.D. Baldi (3) A. Drabent (5) G. Gurkan (5) H.J.A. Rottgering (6) C. Tasse, (7,8) B. Webster (9) ((1) INAF - Osservatorio Astrofisico di Torino, Pino, Torinese, Italy (2) Dipartimento di Fisica e Astronomia

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TL;DR

This study uses LOFAR radio observations to analyze the properties, morphology, and origins of radio emission in luminous early-type galaxies, revealing a mix of active nuclei and star formation contributions.

Contribution

It provides the first comprehensive analysis of radio emission in a large sample of nearby giant early-type galaxies at 150 MHz, linking radio properties with galaxy luminosity and star formation.

Findings

01

78% of the galaxies are detected in radio emission.

02

Approximately 30% of extended sources may be remnant or restarted radio sources.

03

Star formation contributes to radio emission in some galaxies, with SFR up to 8 Msun/yr.

Abstract

We study the properties and the origin of the radio emission in the most luminous early-type galaxies (ETGs) in the nearby Universe (MK<-25, recession velocity < 7,500 km/s) as seen by the 150 MHz Low-Frequency ARray (LOFAR) observations. LOFAR images are available for 188 of these giant ETGs (gETGs) and 146 (78%) of them are detected above a typical luminosity of ~10E21 W/Hz. They show a large spread in power, reaching up to ~10E26 W/Hz. We confirm a positive link between the stellar luminosity of gETGs and their median radio power, the detection rate, and the fraction of extended sources. About two-thirds (91) of the detected gETGs are unresolved, with sizes <4 kpc, confirming the prevalence of compact radio sources in local sources. Forty-six gETGs show extended emission on scales ranging from 4 to 340 kpc, at least 80% of which have a FRI class morphology. Based on the morphology…

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