A dynamical model for FR II type radio sources with terminated jet activity

Kuligowska, Elżbieta

doi:10.1051/0004-6361/201629033

Cited by 7 publications

(23 citation statements)

References 49 publications

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“…However, the very large size and uncommon propagation speed of J1420−0545 (resulting from its relatively young age determined from the model) testify against a dense environment. The analysis of Kuligowska (2017) shows how much the radio spectrum will steepen in relation to its initial slope when a period of quiescence is comparable to the lifetime of the jet activity, even if α inj is not very high.…”

Section: Discussionmentioning

confidence: 99%

“…Komissarov & Gubanov 1994;Murgia et al 2011). For this reason, an extension of the DYNAGE code (the dynamical model with terminated jet activity, KDA EXT), described by Kuligowska (2017), was applied. The extension of the DYNAGE code is based on the division of the cocoon's temporal evolution into two periods: the time of the jet activity until its termination (t j ) and that from the terminated activity until the actual age of the source, t. The evolution during the first period is described in detail in Machalski et al (2007).…”

Section: Modeling Proceduresmentioning

confidence: 99%

“…The extension of the DYNAGE code is based on the division of the cocoon's temporal evolution into two periods: the time of the jet activity until its termination (t j ) and that from the terminated activity until the actual age of the source, t. The evolution during the first period is described in detail in Machalski et al (2007). A further evolution after t j , proposed by Kuligowska (2017), relying on modified expressions for the adiabatic expansion of the cocoon, its pressure, and integrated radio power, is summarized in the Appendix. In the first step of the modeling, we repeated the calculations of MJSK using the new data for the narrow lobes (the entries in column 5 of Table 2), and realized that the earlier models for the "Primary" or "Inner" origin of the structure are not changed appreciably.…”

Section: Modeling Proceduresmentioning

confidence: 99%

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Reassessment of an Origin of the Radio Structure of J1420–0545

Jamrozy

Machalski

Nikiel-Wroczyński

et al. 2017

ApJ

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In this paper, we test the possibility that the structure of the largest radio galaxy J1420−0545 may have been formed by restarted rather than primary jet activity. This hypothesis was motivated by the unusual morphological properties of the source consisting of two edge-brightened, narrow, highly collinear, and symmetric lobes, thus suggesting an almost ballistic propagation of powerful jets into a particularly low-density external medium. New observations made with the VLA together with the currently available GLEAM and TGSS ADR1 data releases allow the detection of an excess emission at low frequencies. An extracted part (88 MHz -200 MHz) of the spectrum of the emission is fitted with the DYNAGE model, giving a forecast for the environmental conditions and the energetic requirements for the presumed old cocoon related to a preceding epoch of jet activity.

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Section: Discussionmentioning

confidence: 99%

Section: Modeling Proceduresmentioning

confidence: 99%

Section: Modeling Proceduresmentioning

confidence: 99%

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Reassessment of an Origin of the Radio Structure of J1420–0545

Jamrozy

Machalski

Nikiel-Wroczyński

et al. 2017

ApJ

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“…Among them are both very weak radio relics (Shulevski et al 2015) and objects with so-called recurrent activity (Saikia A&A proofs: manuscript no. 31535_corr & Jamrozy 2010), as well as the more typical, powerful radio galaxies with curved spectra (i.e., the ones modeled and discussed by Kuligowska (2017). It is worth emphasising that the problem of evolution of FR II-type sources after their jet activity has stopped was previously widely discussed by Kaiser & Cotter (2002).…”

Section: Introductionmentioning

confidence: 90%

“…However, their statistical test suggests that the KDA model still appears to provide better results than the Manolakou & Kirk and Blundell et al models. The KDA EXT model originally published by Kuligowska (2017) arose from the need to better understand the processes occurring in FR II−type radio sources after the end of their nuclear activity. In contrast to the previously developed models describing the dynamics of these sources and based on the "standard model", such as KDA, BRW and MK, KDA EXT was constructed on the assumption of the lack of so-called continuous injection (hereafter CI) of new particles into the lobes at the time at which the given source is observed.…”

Section: Introductionmentioning

confidence: 99%

Studying the highly bent spectra of FR II-type radio galaxies with the KDA EXT model

Kuligowska

2018

A&A

Self Cite

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Context. The Kaiser, Dennett-Thorpe & Alexander (KDA) (1997) EXT model, that is, the extension of the KDA model of FR(Faranoff & Riley)II−type source evolution, is applied and confronted with the observational data for selected FR II−type radio sources with significantly aged radio spectra. Aims. A sample of FR II−type radio galaxies with radio spectra strongly bent at their highest frequencies is used for testing the usefulness of the KDA EXT model. Methods. The dynamical evolution of FR II−type sources predicted with the KDA EXT model is briefly presented and discussed. The results are then compared to the ones obtained with the classical KDA approach, assuming the source's continuous injection and self-similarity. Results. The results and corresponding diagrams obtained for the eight sample sources indicate that the KDA EXT model predicts the observed radio spectra significantly better than the best spectral fit provided by the original KDA model.

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The use of the Monte Carlo methods in studying Fanaroff‐Riley II‐type radio sources

Kuligowska

2019

Astron Nachr

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General Monte Carlo methods are a broad class of algorithms relying on repeated random sampling to obtain numerical results in many physical problems. The underlying concept is to use randomness to solve problems that might be deterministic in principle. They are often used in problems with many coupled degrees of freedom. I present the possible use of these methods in the case of the analytical KDA (Kaiser, Dennett-Thorpe & Alexander, 1997) model of Fanaroff-Riley's II (FR II)-type radio sources assuming the continuum injection process in the jet-intergalactic medium interaction. Since this model is characterized by a large number of free parameters and originally requires knowing the large number of parameters unknown a priori, the use of the Monte Carlo methods is well justified. I discuss the application of these methods and its reliability in the case of the selected real radio sources.

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A dynamical model for FR II type radio sources with terminated jet activity

Cited by 7 publications

References 49 publications

Reassessment of an Origin of the Radio Structure of J1420–0545

Reassessment of an Origin of the Radio Structure of J1420–0545

Studying the highly bent spectra of FR II-type radio galaxies with the KDA EXT model

The use of the Monte Carlo methods in studying Fanaroff‐Riley II‐type radio sources

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