VLBI observations of the CORALZ sample: young radio sources at low redshift

Vries, Nathan de; Snellen, I. A. G.; Schilizzi, R. T.; Mack, K.‐H.; Kaiser, Christian

doi:10.1051/0004-6361/200811145

Cited by 54 publications

(112 citation statements)

References 35 publications

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“…The observed range of spectral indices above the peak for samples of CSS and GPS sources is α = 0.5-0.9 (O'Dea et al 1990), which partially overlaps with the CSO range. The same range was derived for the spectral index above spectra peak for GPS and FR galaxies, suggesting that particle acceleration and energy loss mechanism preserve the same average spectral index over most of the lifetime of the source (de Vries et al 2009). Variability of the spectral index has also been associated with the HFP sources and to identify truly young sources (Orienti et al 2007).…”

Section: Spectral Index Versus Time and Sizesupporting

confidence: 63%

“…The current (P rad -D) diagram contains similar but also different groups of data points than earlier versions, particularly for the region of early development of CSO radio sources. A sample of low-power GPS sources (de Vries et al 2009) has been included in the bottom left corner of the diagram as likely precursors of the low-power MSO sources (KunertBajraszewska et al 2010). In addition, there are more data points for the group of low-power FR Is (<10 24 W Hz −1 ; Laing et al 1983;Fanti et al 1987Fanti et al , 2001).…”

Section: Evolution Of the Radio Structurementioning

confidence: 99%

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The Dynamic Evolution of Young Extragalactic Radio Sources

Baan

2012

ApJ

206

241

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The evolution of symmetric extragalactic radio sources can be characterized by four distinct growth stages of the radio luminosity versus size of the source. The interaction of the jet with the ambient medium results in the formation and evolution of sources with non-standard (flaring) morphology. In addition, cessation or restarting of the jet power and obstruction of the jet will also result in distinct morphological structures. The radio source population may thus be classified in morphological types that indicate the prevailing physical processes. Compact symmetric objects (CSOs) occupy the earliest evolutionary phase of symmetric radio sources and their dynamical behavior is fundamental for any further evolution. Analysis of CSO dynamics is presented for a sample of 24 CSOs with known redshift and hotspot separation velocity and with a large range of radio power. Observables such as radio power, separation between two hotspots, hotspot separation velocity, and kinematic age of the source are found to be generally consistent with the self-similar predictions for individual sources that reflect the varying density structure of the ambient interstellar medium. Individual sources behave different from the group as a whole. The age and size statistics confirm that a large fraction of CSOs does not evolve into extended doubles.

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Section: Spectral Index Versus Time and Sizesupporting

confidence: 63%

Section: Evolution Of the Radio Structurementioning

confidence: 99%

The Dynamic Evolution of Young Extragalactic Radio Sources

Baan

2012

ApJ

206

241

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“…It is therefore important to review the correlation between expansion speed and luminosity found by de Vries et al (2009). The expansion speed we determine here for CORALZ J083139+460800, exceeds the previously derived upper limit, but is still the lowest expansion speed measured in any GPS radio source so far.…”

Section: Expansion Velocity and Radio Powersupporting

confidence: 40%

The dynamical ages of two low-luminosity young radio sources

Vries

Snellen

Schilizzi

et al. 2010

A&A

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Context. Young radio-loud active galactic nuclei form an important tool for investigating the evolution of extragalactic radio sources. To study the early phases of expanding radio sources, we are using the CORALZ sample, which contains 25 compact (θ < 2 ) radio sources associated with nearby galaxies. Aims. In this paper we aim to determine the lobe-to-lobe expansion speeds for two sources in the sample. Comparing the dynamical ages of these relatively low-luminosity objects with ages of powerful sources found in the literature, will serve to test radio source evolution models. Methods. We present our third epoch of VLBI observations, using the EVN+VLBA array at 5.0 GHz, at four and eight years after our previous measurements. Results. We report the detection of a lobe-to-lobe expansion speed of 0.095 ± 0.020 h −1 c for CORALZ J083139+460800, and a 1-σ upper limit to the expansion speed of CORALZ J131739+411545 of 0.074 h −1 c. The detected expansion speed of CORALZ J083139+460800 corresponds to a dynamical age of 245 ± 55 years. Conclusions. The detected expansion speed and upper limit are lower than any presented in the literature for powerful young AGN. This confirms that the expansion speeds of young radio sources are correlated with their radio luminosities.

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“…At the time, selection effects of the available surveys were hiding the low-luminosity population of radio sources. More recent surveys of low-luminosity sources (e.g., de Vries et al 2009, Kunert-Bajraszewska et al 2010) have revealed a number of sources distributed throughout the diagram. A classification adapted to the new scenario revealed by low-luminosity observations has been proposed by An & Baan (2012), including predicted tracks depending on the initial power of the source and the activity period of the active galactic nucleus (AGN).…”

Section: Introductionmentioning

confidence: 99%

Radio source evolution

Perucho¹

2016

Astron Nachr

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Baldwin (1982) wrote that \emph{the distribution of sources in the radio luminosity, $P$, overall physical size, $D$, diagram} could be considered as \emph{the radio astronomer's $H-R$ diagram}. However, unlike the case of stars, not only the intrinsic properties of the jets, but also those of the host galaxy and the intergalactic medium are relevant to explain the evolutionary tracks of radio radio sources. In this contribution I review the current status of our understanding of the evolution of radio sources from a theoretical and numerical perspective, using the $P-D$ diagram as a framework. An excess of compact (linear size $\leq 10$~kpc) sources could be explained by low-power jets being decelerated within the host galaxy, as shown by recent numerical simulations. Finally, I discuss the possible tracks that radio sources may follow within this diagram, and the physical processes that can explain the different tracks.Comment: Submitted for publication in Astronomische Nachrichten. Review contribution to the proceedings of the 5th Workshop on CSS and GPS radio sources, held in Rimini (Italy) in May 2015. Applied some minor corrections as suggested by the referee and updated the bibliograph

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VLBI observations of the CORALZ sample: young radio sources at low redshift

Cited by 54 publications

References 35 publications

The Dynamic Evolution of Young Extragalactic Radio Sources

The Dynamic Evolution of Young Extragalactic Radio Sources

The dynamical ages of two low-luminosity young radio sources

Radio source evolution

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