On the origin of the Fanaroff-Riley dichotomy
ASTR SOC P 250 (2002) 290-293
Abstract:
A small fraction of double radio sources show a peculiar and striking hybrid morphology; they have a distinctly FRI structure on one side of the nucleus, and a FRII structure on the other. We argue that the mere existence of these HYMORS is quite incompatible with the theoretical explanations for the Fanaxoff-Riley dichotomy that are based upon the nature of the jet plasma, or those invoking an intrinsic property of the central engine. Rather, these HYMORS strongly support models that explain the difference between FRI and FRII sources in terms of asymmetry of interaction of the jets with the external environments. We further show that a model for radio source dynamics we had earlier proposed can neatly reproduce the observed dependence of the radio power dividing the two FR classes on the optical luminosity of the host galaxy, as found by Owen & White and Ledlow Owen.Optical structure and physics of the M 87 jet
ASTR SOC P 250 (2002) 248-253
Abstract:
We summarize HST observations of the M 87 jet, concentrating on polarimetry and spectral index maps, and compare its optical and radio structures. The evidence now supports a stratified model for the structure of the jet, in which high-energy electrons emitting optical synchrotron radiation and their lower-energy, radio-emitting counterparts occupy separate regions of the jet, with different magnetic-field configurations. The higher-energy paxticles are closer to the jet axis, where the shocks that produce the knots in the inner jet appear to originate. Knot regions have optical spectra Which axe much flatter than the average for the jet, with the flattest-spectrum regions coinciding with flux maxima of the knots. These knots are preceded by regions where perpendicular apparent magnetic fields are seen. Thus not only do we see all the necessary ingredients for in situ particle acceleration in the knots, but there is now fairly direct evidence for it as well. By tracking the changes in radio-optical and optical spectral indices in the knot regions, we can estimate the relative acceleration. and cooling time-scales in the knots.Parsec-scale radio morphology in Seyfert galaxies
ASTR SOC P 250 (2002) 191-194
Abstract:
We have observed a sample of Seyfert galaxies with global VLBI in order to test the predictions of the Unified Scheme for Seyferts, which hypothesises that Seyferts of type 1 and of type 2 differ only in the orientation of the axisymmetric active nucleus with respect to the observer. In this case, the parsec-scale radio structures of the two types should be similar. The 10 Seyfert 1s and 10 Seyfert 2s in our sample have been selected to have similar distributions of redshift and properties of their host galaxies: [OIII] luminosity, galaxy bulge luminosity etc. In this way, we ensure that the two subsamples of Seyferts are matched with respect to properties that axe expected to be orientation-independent. We are thus able to test the Unified Scheme rigorously. We detect all the objects that we observed and discuss the results. Our results are consistent with the prediction of the simple Unified Scheme.Particle transport in complex flows
ASTR SOC P 250 (2002) 340-344
Abstract:
This work presents new kinds of numerical schemes adapted to the transport and the acceleration of relativistic particles in complex multi-dimensional astrophysical flows. They use stochastic differential equations (SDE) equivalent to the diffusion-convection equation (DCE) for cosmic rays. The discretized SDE allows a time reconstruction of the particle distribution function of the relativistic particles. The method is first tested in ideal simple cases of shock acceleration with radiative losses. The ability of the different SDE schemes to solve more complex problems and their limitations are also addressed. The schemes are then applied to the transport of radio-emitting electrons in extragalactic jets. It is shown that a rescaling procedure for the diffusion coefficients can be used to compute of radiative jet structures. Finally, uses of the SDEs in conjunction with with 2D-3D (magneto-)hydrodynamical simulations are considered.Particles and fields in radio galaxies: a summary
ASTR SOC P 250 (2002) 487-498