Fast jet proper motion discovered in a blazar at z = 4.72

TL;DR

This study reports the discovery of a highly relativistic jet proper motion in a high-redshift blazar at z=4.72, providing insights into early universe jet kinematics and cosmological parameters through multi-epoch VLBI observations.

Contribution

First measurement of jet proper motion and apparent speed in a z>4 blazar using 22 years of VLBI data, revealing the fastest jet kinematics at such high redshift.

Findings

Jet component J2 has an apparent speed of 19.5c.

Jet Lorentz factor is approximately 14.6.

Jet viewing angle is about 2.2 degrees.

Abstract

High-resolution observations of high-redshift ($z>4$) radio quasars offer a unique insight into jet kinematics at early cosmological epochs, as well as constraints on cosmological model parameters. Due to the general weakness of extremely distant objects and the apparently slow structural changes caused by cosmological time dilation, only a couple of high-redshift quasars have been studied with parsec-scale resolutions, and with limited number of observing epochs. Here we report on very long baseline interferometry (VLBI) observations of a high-redshift blazar J1430+4204 ($z=4.72$) in the 8 GHz frequency band at five different epochs spanning 22 years. The source shows a compact core--jet structure with two jet components being identified within 3 milli-arcsecond (mas) scale. The long time span and multiple-epoch data allow for the kinematic studies of the jet components. That results in a jet proper motion of $\mu {\rm (J1)}$ = 0.017$\pm$0.002~mas\,yr$^{-1}$ and $\mu({\rm J2})$=0.156$\pm$0.015~mas\,yr$^{-1}$, respectively. For the fastest-moving outer jet component J2, the corresponding apparent transverse speed is $19.5 \pm 1.9 \,c$. The inferred bulk jet Lorentz factor $\Gamma = 14.6 \pm 3.8$ and viewing angle $\theta = 2.2^{\circ} \pm 1.6^{\circ}$ indicate highly relativistic beaming. The Lorentz factor and apparent proper motion are the highest measured to date among the $z>4$ jetted radio sources, while the jet kinematics is still consistent with the cosmological interpretation of quasar redshifts.