Polarization of synchrotron emission from relativistic reconfinement shocks

Abstract

We study the polarization properties of relativistic reconfinement shocks with chaotic magnetic fields. Using our hydrodynamical model of their structure, we calculate synthetic polarization maps, longitudinal polarization profiles and discuss the spatially averaged polarization degree as a function of jet half-opening angle Thetaj, jet Lorentz factor Gammaj and observer inclination angle to the jet axis thetaobs. We find, that for thetaobs <= Thetaj the wave electric vectors are parallel in the vicinity of the structure ends and perpendicular in between, while for thetaobs > Thetaj the polarization can only be perpendicular. The spatially averaged polarization degree does not exceed 30%. Parallel average polarization, with polarization degrees lower than 10%, have been found for thetaobs < Thetaj under the condition Gammaj * Thetaj > 1. As earlier works predicted the parallel polarization from relativistic conical shocks, we explain our results by discussing conical shocks with divergent upstream flow.