Relativistic Beaming and the Intrinsic Properties of Extragalactic Radio Jets
Abstract
Relations between the observed quantities for a beamed radio jet, apparent transverse speed and apparent luminosity (betaapp,L), and the intrinsic quantities, Lorentz factor and intrinsic luminosity (gamma,Lo), are investigated. The inversion from measured to intrinsic values is not unique, but approximate limits to gamma and Lo can be found using probability arguments. Roughly half the sources in a flux density--limited, beamed sample have a value of gamma close to the measured betaapp. The methods are applied to observations of 119 AGN jets made with the VLBA at 15 GHz during 1994-2002. The results strongly support the common relativistic beam model for an extragalactic radio jet. The (betaapp,L) data are closely bounded by a theoretical envelope, an aspect curve for gamma=32, Lo= 1025 W/Hz. This gives limits to the maximum values of gamma and Lo in the sample: gammamax about 32, and Lo,max ~ 1026 W/Hz. No sources with both high betaapp and low L are observed. This is not the result of selection effects due to the observing limits, which are flux density S>0.5 Jy, and angular velocity mu<4 mas/yr. Many of the fastest quasars have a pattern Lorentz factor gammap close to that of the beam, gammab, but some of the slow quasars must have gammap<<gammab. Three of the 10 galaxies in the sample have a superluminal feature, with speeds up to betaapp about 6. The others are at most mildly relativistic. The galaxies are not off-axis versions of the powerful quasars, but Cygnus A might be an exception.
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