Evolving parsec-scale radio structure in the most distant blazar known

• Published in: Nature communications Vol. 11; no. 1; p. 143
• Main Authors: An, Tao, Mohan, Prashanth, Zhang, Yingkang, Frey, Sándor, Yang, Jun, Gabányi, Krisztina É., Gurvits, Leonid I., Paragi, Zsolt, Perger, Krisztina, Zheng, Zhenya
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 09.01.2020; Nature Publishing Group; Nature Portfolio
• Subjects: 639/33/34/4120; 639/33/34/863; 639/33/34/864; Accretion; Blazars; Deposition; Emission; Emission measurements; Humanities and Social Sciences; Interferometry; jet; Lorentz factor; mechanical property; momentum; multidisciplinary; polarization; probe; Probes; Quasars; Red shift; Science; Science (multidisciplinary); Space telescopes; Supermassive black holes; Very long base interferometry
• ISSN: 2041-1723; 2041-1723
• DOI: 10.1038/s41467-019-14093-2

Blazars are a sub-class of quasars with Doppler boosted jets oriented close to the line of sight, and thus efficient probes of supermassive black hole growth and their environment, especially at high redshifts. Here we report on Very Long Baseline Interferometry observations of a blazar J0906 + 6930 at z  = 5.47, which enabled the detection of polarised emission and measurement of jet proper motion at parsec scales. The observations suggest a less powerful jet compared with the general blazar population, including lower proper motion and bulk Lorentz factor. This coupled with a previously inferred high accretion rate indicate a transition from an accretion radiative power to a jet mechanical power based transfer of energy and momentum to the surrounding gas. While alternative scenarios could not be fully ruled out, our results indicate a possibly nascent jet embedded in and interacting with a dense medium resulting in a jet bending. High redshift blazars are efficient probes of supermassive black holes and their environment in the early Universe. Here the authors show measurements of polarised emission and proper motion in the blazar J0906+6930 (redshift of 5.47) characterised by a nascent jet embedded in and interacting with a dense medium.