Abstract
Radio galaxies are known to undergo phases of activity, where the stage after the jets have switched off is referred to as the remnant phase. This state can be followed by a restarted phase when the activity reignites. Remnant and restarted radio sources are important for testing models of the evolution of radio active galactic nuclei (AGN) and for understanding the impact the recurrent jet activity has on their host galaxies. Although we now have statistical samples of radio sources in various stages of their life cycle, how this intermittent radio activity is reflected in the optical properties in this sample has not yet been addressed, and is overall a much less studied aspect in the literature. In this work, we use the Wide-field Infrared Survey Explorer and the Sloan Digital Sky Survey (SDSS) photometry, and SDSS spectra to study these properties in a sample of the remnant, candidate restarted, and active radio galaxies selected using the LOw Frequency ARray at 150 MHz in the Lockman Hole extragalactic field. Within the range of radio luminosities and stellar masses studied in this work, we find no difference between the properties of the host galaxy and of the optical emission lines for objects in different phases of their radio life cycle. The vast majority of our radio sources (either remnant, candidate restarted, or comparison sample) are associated with radiatively inefficient optical AGN and red galaxies dominated by old stellar populations. Thus, the radio and emission-line AGN activity appears to be independent and regulated by different mechanisms. This suggests that, at least for the radio luminosities of our sample, the life cycle of the radio may depend on intrinsic reasons, such as the stability of the accretion disc, more than variation in the accretion rate and fuelling of the central black hole.
Highlights
The energy released by an active black hole (BH) can have a significant effect on the evolution of its host galaxy ([1] and references therein)
Sloan Digital Sky Survey (SDSS; [35]) and WISE photometry, and SDSS spectra, we address how these different types of radio sources fit into the correlations observed for active radio sources
Jet-mode active galactic nuclei (AGN) are known to go through phases of activity and quiescence, and our aim is to understand whether these different phases observed at radio wavelengths can be traced to optical wavelengths
Summary
The energy released by an active black hole (BH) can have a significant effect on the evolution of its host galaxy ([1] and references therein). As they evolve during their life, radio galaxies are observed to go through different phases, which is often referred to as the ‘life cycle’ of a radio source (see [2,3] for extensive reviews). The active phase can be followed by a remnant phase, when the jet activity stops or substantially decreases (e.g., [9,10,11,12,13,14,15,16]). Radio AGN activity can provide a mechanism to regulate accretion or cooling of the surrounding gas, and possibly the star formation rate (SFR) and the growth of the super massive black hole (SMBH; [20])
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