Detecting the Elusive Blazar Counter-Jets

TL;DR

This paper models the flux densities of blazar counter-jets to determine the sensitivity needed for their detection, predicting high detection probabilities with upcoming telescopes and identifying prime candidate sources.

Contribution

It provides a population-based model of blazar counter-jet flux densities and estimates detection probabilities with future radio telescopes, highlighting key candidate sources.

Findings

Up to 99% of BL Lac counter-jets detectable with future telescopes.

Detection probabilities for FSRQ counter-jets are up to 77%.

Identified five prime candidate sources for counter-jet detection.

Abstract

Detection of blazar pc scale counter-jets is difficult, but it can provide invaluable insight into the relativistic effects, radiative processes and the complex mechanisms of jet production, collimation and accelation in blazars. We build on recent populations models (optimized using the MOJAVE apparent velocity and redshift distributions) in order to derive the distribution of jet-to-counter-jet ratios and the flux densities of the counter-jet at different frequencies, in an effort to set minimum sensitivity limits required for existing and future telescope arrays in order to detect these elusive counter-jets. We find that: for the BL Lacs $5\%$ of their counter-jets have a flux-density higher than 100mJy, $15\%$ are higher than 10 mJy, and $32\%$ have higher flux-density than 1 mJy, whereas for the FSRQs $8\%$ have a flux-density higher than 10mJy, $17\%$ are higher than 1 mJy, and $32\%$ are higher than 0.1 mJy (at 15 GHz). Future telescopes like the SKA and newly operating like e-MERLIN and JVLA may detect up to $99\%$ of the BL Lac and $77\%$ of the FSRQ counter-jets. Sources with both low apparent velocity and a low Doppler factor make prime candidates for counter-jet detection. Combining our findings with literature values we have identified five such counter-jet detection candidates. Finally, we discuss possible effects beyond relativistic deboosting that may complicate the detection of counter-jets and that need to be accounted for in the interpretation of detections.