Accretion Disk Model of Short-Timescale Intermittent Activity in Young Radio Sources

Czerny, B.; Siemiginowska, Aneta; Janiuk, Agnieszka; Nikiel-Wroczyński, B.; Stawarz, Ł.

doi:10.1088/0004-637x/698/1/840

Cited by 162 publications

(233 citation statements)

References 106 publications

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“…The relation between ages and bolometric luminosities for young radio galaxies is presented in Figure 2, where the bolometric luminosities of CSS sources calculated from [O iii] luminosities are marked with extra open squares. We find that the ages are positively correlated with the bolometric luminosities in these young radio galaxies, which is consistent with the prediction of radiation pressure instability in accretion disks (Czerny et al 2009). We plot the dashed lines corresponding to Equation (1) with viscosity parameters α = 10 −4 and 1 in Figure 2.…”

Section: Resultssupporting

confidence: 89%

“…We then compare the ages of young radio sources with the half of the outburst durations in the BH mass-accretion rate (in Eddington unit, M BH -ṁ) plane where the outbursts are assumed to be triggered by the radiation pressure instabilities of accretion disks. To do so, we convert the contour map of α = 0.2 in Czerny et al (2009, Figure 5) to the case of T burst /2 with α = 0.1 using the scaling relation of Equation (1), since we find that most of the young radio sources can, on the average, be described by α 0.1 in the L bol -age relation. The ages of young radio sources are divided into four bins as Figure 3.…”

Section: Resultsmentioning

confidence: 99%

“…In this Letter, we estimate the bolometric luminosities and BH masses for a sample of young radio galaxies with known ages. We then test whether the ages of young radio galaxies are consistent with the durations of outbursts or not, where the outbursts are assumed to be triggered by the radiation pressure instabilities of accretion disks (e.g., Czerny et al 2009). Throughout this paper, we assume the following cosmology: H 0 = 70 km s −1 Mpc −1 , Ω 0 = 0.3, and Ω Λ = 0.7.…”

Section: Introductionmentioning

confidence: 99%

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Observational Evidence for Young Radio Galaxies Is Triggered by Accretion Disk Instability

2009

ApJ

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Bolometric luminosities and black hole (BH) masses are estimated by various methods for a sample of young radio galaxies with known ages. We find that the ages are positively correlated with the bolometric luminosities in these young radio galaxies. This positive correlation is consistent with the theoretical prediction based on the radiation pressure instability of accretion disks in Czerny et al. The ages of young radio galaxies are also found to be consistent with the theoretical durations of outbursts in BH mass and accretion rate (in Eddington unit) plane, where the outbursts are assumed to be triggered by the radiation pressure instabilities. Our results provide observational evidence for the radiation pressure instability, which causes limitcycle behavior, as a physical mechanism that may be responsible for these short-lived young radio galaxies.

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Section: Resultssupporting

confidence: 89%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Observational Evidence for Young Radio Galaxies Is Triggered by Accretion Disk Instability

2009

ApJ

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“…ionisation instability operating on longer timescales (Hatziminaoglou et al 2001;Janiuk et al 2004, and references therein). On the other hand, in the most recent activity cycle, the central source is intermittent due to radiation-pressure instability operating on much shorter timescales (Czerny et al 2009). Hence, it appears that two accretion disk instability mechanisms, ionisation and radiationpressure driven, could be at work in the same galaxy and the outburst resulting from the short-timescale instability may occur during the quiescent phase of the long-timescale instability.…”

Section: Discussionmentioning

confidence: 99%

Evidence of a double-double morphology in B 0818+214

Marecki¹,

Szablewski²

2009

A&A

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The so-called double-double structure in radio sources is the most conspicuous signature of their restarted activity. Observations indicate that in the majority of double-double radio sources (DDRS), the span of the radio lobes is larger than 0.7 Mpc. This lower limit is also suggested by theory. However, it seemed likely that the apparent core of B 0818+214, a radio galaxy with an overall linear size of its radio structure below that limit, could harbour a compact double well aligned with the outer lobes so that the whole object would fulfil the criteria of a DDRS. Here, we present evidence that the central component of B 0818+214, when magnified through the EVN+MERLIN 18-cm observations, shows two FR II-like lobes. As the separation of the inner lobes is not greater than 5.7 kpc, they are immersed in the ISM of the host galaxy. This circumstance is the likely reason why the inner double has become visible, despite the predictions of the theory according to which B 0818+214 as a whole is too small for a new double to develop inside the cocoon inflated during the previous active phase. Moreover, we speculate that its host galaxy is not active at the moment and so the inner double may be in the coasting phase often observed in other medium-sized symmetric objects with intermittent activity. It could be, therefore, that two different mechanisms of accretion disk instabilities, ionisation and radiation-pressure driven, may be independently responsible for triggering active phases, manifesting as the outer and the inner doubles, respectively.

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“…This may be interpreted considering that the di↵erent orientation between the di↵use radio emission and the new radio structure may be connected with merger events (Czerny et al, 2009). This results in the renewing activity of the central engine accompanied by the re-orientation of the jet axis.…”

Section: Amentioning

confidence: 99%

Multifrequency VLBA observations of two compact symmetric objects

2016

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We present the results of multifrequency VLBA observations of J1944+5448 and J0111+3906. These sources are compact symmetric objects, completely embedded in the narrow line region of the host galaxy. Multi-epoch observations allowed us to derive the hot-spot separation speed that was used to estimate the kinematic age of both sources. Their asymmetric shape is likely due to an inhomogeneous ambient medium with which these sources interact. Finally we present the results on the spectral analysis of J0111+3906 whose spectrum is ﬁtted with either a synchrotron self-absorption mechanism or a free free absorption model

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Accretion Disk Model of Short-Timescale Intermittent Activity in Young Radio Sources

Cited by 162 publications

References 106 publications

Observational Evidence for Young Radio Galaxies Is Triggered by Accretion Disk Instability

Observational Evidence for Young Radio Galaxies Is Triggered by Accretion Disk Instability

Evidence of a double-double morphology in B 0818+214

Multifrequency VLBA observations of two compact symmetric objects

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