Pearson‐Readhead Survey Sources. II. The Long‐Term Centimeter‐Band Total Flux and Linear Polarization Properties of a Complete Radio Sample

Abstract

Using UMRAO centimeter-band total flux density and linear polarization monitoring observations of the complete Pearson-Readhead extragalactic source sample obtained between August 1984 and March 2001, we identify the range of variability in extragalactic objects as functions of optical and radio morphological classification, and relate total flux density variations to structural changes in published coeval VLBI maps in selected objects. We have identified preferred orientations of the electric vector of the polarized emission at 14.5 and 4.8 GHz in roughly half of the objects, and compared these with orientations of the flow direction indicated by VLBI morphology. When comparing the distributions of the orientation offsets for the BL Lacs and for the QSOs, we find differences in both range and mean value, in support of intrinsic class differences. In the shock-in-jet scenario, we attribute this to the allowed range of obliquities of shocks developing in the flow relative to the flow direction. The fact that we find longterm stability in EVPA over many events implies that a dominant magnetic field orientation persists; in the core-dominated objects, with small contribution from the underlying quiescent jet, this plausibly suggests that the magnetic field has a longterm memory, with subsequent shock events exhibiting similar EVPA orientation, or, alternatively, the presence of a standing shock in the core. We have looked for systematic, monotonic changes in EVPA which might be expected in the emission from a precessing jet, a model currently invoked for some AGNs; none were identified. Further, we carried out a Scargle periodogram analysis of the total flux density observations, but found no strong evidence for periodicity in any of the sample sources.