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Astron. Astrophys. 362, 447-464 (2000)
The environments and ages of extragalactic radio sources inferred from multi-frequency radio maps
C.R. Kaiser
Max-Planck-Institut für Astrophysik, Postfach 1317, Karl-Schwarzschild-Strasse 1, 85741 Garching, Germany (ckaiser@mpa-garching.mpg.de)
Received 2 May 2000 / Accepted 12 July 2000
Abstract
A 3-dimensional model of the synchrotron emissivity of the cocoons
of powerful extragalactic radio sources of type FRII is constructed.
Bulk backflow and energy losses of the relativistic electrons,
radiative and adiabatic, are self-consistently taken into account.
Thus the model is an extension of spectral aging methods including the
underlying source dynamics into the age estimates. The discrepancies
between spectral ages and dynamical ages arising from earlier methods
are resolved. It is also shown that diffusion of relativistic
particles within the cocoon is unlikely to significantly change the
particle spectrum and thus the emitted radio spectrum. Projection
along the line of sight yields 1 or 2-dimensional surface brightness
distributions which can be compared with observations. From the model
parameters constraints on the source age, the density of the source
environment and the angle to the line of sight can be derived.
Application of the method to Cygnus A, 3C 219 and 3C 215 show that the
method provides robust estimates for the model parameters for sources
with comparatively regularly shaped radio lobes. The resolution of the
radio maps required is only moderate. Within the large uncertainties
for the orientation angle, the three example sources are found to be
consistent with orientation-based unification schemes of radio-loud
AGN. In the case of Cygnus A the gas density of the environment is
found to agree with independent X-ray measurements. For 3C 219 and 3C
215 the densities derived from the model are apparently too low. It is
suggested that these discrepancies are caused by overestimates of
slope and core radius of ![[FORMULA]](img1.gif)
-models for
the gas density distribution from X-ray observations for clusters
hosting powerful radio sources.
Key words: galaxies:
active 
galaxies: individual: Cygnus A, 3C
219
galaxies: jets
galaxies: quasars: individual: 3C 215
Contents
- 1. Introduction
- 2. Comparison to spectral aging methods
- 3. The model
- 3.1. The dynamical model
- 3.2. Synchrotron emission
- 3.3. Spatial distribution of the emission
- 3.4. Backflow
- 4. Comparison with observations
- 4.1. 2-dimensional comparison
- 4.2. 1-dimensional comparison
- 4.3. Model parameters
- 4.4. Degeneracy of parameters
- 5. Application to Cygnus A, 3C 219 and 3C 215
- 5.1. Cygnus A
- 5.1.1. The eastern lobe
- 5.1.2. The western lobe
- 5.2. 3C 219
- 5.3. 3C 215
- 5.1. Cygnus A
- 6. Discussion
- 7. Conclusions
- Acknowledgements
- Appendices
- References
© European Southern Observatory (ESO) 2000
Online publication: October 24, 2000
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