Jet Collimation and Acceleration in the Giant Radio Galaxy NGC 315

DOI: 
10.3847/1538-4357/abd6ee
Publication date: 
24/03/2021
Main author: 
Park, Jongho
IAA authors: 
Zhao, Guangyao
Authors: 
Park, Jongho;Hada, Kazuhiro;Nakamura, Masanori;Asada, Keiichi;Zhao, Guangyao;Kino, Motoki
Journal: 
The Astrophysical Journal
Publication type: 
Article
Volume: 
909
Pages: 
76
Abstract: 
We study the collimation and acceleration of jets in the nearby giant radio galaxy NGC 315, using multifrequency Very Long Baseline Array observations and archival High Sensitivity Array and Very Large Array data. We find that the jet geometry transitions from a semi-parabolic shape into a conical/hyperbolic shape at a distance of ≍10<SUP>5</SUP> gravitational radii. We constrain the frequency-dependent position of the core, from which we locate the jet base. The jet collimation profile in the parabolic region is in good agreement with the steady axisymmetric force-free electrodynamic solution for the outermost poloidal magnetic field line anchored to the black hole event horizon on the equatorial plane, similar to the nearby radio galaxies M87 and NGC 6251. The velocity field derived from the asymmetry in brightness between the jet and counterjet shows gradual acceleration up to the bulk Lorentz factor of Γ ∼ 3 in the region where the jet collimation occurs, confirming the presence of the jet acceleration and collimation zone. These results suggest that the jets are collimated by the pressure of the surrounding medium and accelerated by converting Poynting flux to kinetic energy flux. We discover limb brightening of the jet in a limited distance range where the angular resolution of our data is sufficient to resolve the jet transverse structure. This indicates that either the jet has a stratified velocity field of fast-inner and slow-outer layers or the particle acceleration process is more efficient in the outer layer owing to the interaction with the surroundings on parsec scales.
Database: 
ADS
URL: 
https://ui.adsabs.harvard.edu/#abs/2021ApJ...909...76P/abstract
ADS Bibcode: 
2021ApJ...909...76P
Keywords: 
Active galactic nuclei;Radio galaxies;Relativistic jets;Very long baseline interferometry;Magnetic fields;Accretion;16;1343;1390;1769;994;14;Astrophysics - High Energy Astrophysical Phenomena