Deconstructing blazars: A different scheme for jet kinematics in flat-spectrum AGN

TL;DR

This study proposes a new paradigm for understanding the jet kinematics in flat-spectrum AGN, especially BL Lac objects, highlighting stationary components with changing position angles and their implications for jet morphology and variability.

Contribution

The paper introduces tools to analyze jet ridge line evolution, revealing distinct kinematic behaviors in BL Lac objects compared to quasars and radio galaxies.

Findings

BL Lac jets have larger apparent widths than quasars and radio galaxies.

BL Lac jet ridge lines change width more significantly over time.

Variable quasars exhibit BL Lac-like jet behaviors.

Abstract

Recent VLBI studies of the morphology and kinematics of individual BL Lac objects (S5 1803+784, PKS 0735+178, etc.) have revealed a new paradigm for the pc-scale jet kinematics of these sources. Unlike the apparent superluminal outward motions usually observed in blazars, most, if not all, jet components in these sources appear to be stationary with respect to the core, while exhibiting strong changes in their position angles. As a result, the jet ridge lines of these sources evolve substantially, at times forming a wide channel-flow. We investigate the Caltech-Jodrell Bank flat-spectrum (CJF) sample of radio-loud active galaxies to study this new kinematic scenario for flat-spectrum AGN. We develop a number of tools that extract information about the apparent linear and angular evolution of the CJF jet ridge lines, as well as their morphology. In this way, we study both radial and non-radial apparent motions in the CJF jets. We find that approximately half of the sample shows appreciable apparent jet widths ($>10 degrees$), with BL Lac jet ridge lines showing significantly larger apparent widths than both quasars and radio galaxies. In addition, BL Lac jet ridge lines are found to change their apparent width more strongly. Finally, BL Lac jet ridge lines show the least apparent linear evolution, which translates to the smallest apparent expansion speeds for their components. We find compelling evidence supporting a substantially different kinematic scenario for flat-spectrum radio-AGN jets and in particular for BL Lac objects. In addition, we find that variability is closely related to the properties of a source's jet ridge line. Variable quasars are found to show "BL Lac like" behavior, compared to their non-variable counterparts.