Sub-Parsec Acceleration and Collimation of NGC 4261's Twin Jets

Abstract

We report the first robust evidence for a co-spatial sub-parsec acceleration and collimation zone (ACZ) in the twin jets of the nearby low-luminosity active galactic nucleus (LLAGN) NGC 4261. This result is derived from multifrequency Very Long Baseline Array imaging, combined with the frequency-dependent properties of the radio core (core shift and core size) and jet kinematics determined from the jet-to-counterjet brightness ratio. By applying multiple analysis methods and incorporating results from the literature, we identify a parabolic-to-conical structural transition in both the jet and counterjet, with the transition occurring at (1.230.24) pc or (8.11.6)×103 R s (Schwarzschild radii) for the jet and (0.970.29) pc or (6.41.9)×103 R s for the counterjet. We also derive the jet velocity field at distances of (103-2×104) R s. While local kinematic variations are present, the jet shows an overall acceleration to relativistic speeds from 103 to 8×103 R s, with a maximum Lorentz factor of max ≈ 2.6. Beyond this region, the jet gradually decelerates to sub-relativistic speeds. These findings support the existence of a sub-parsec-scale ( 1.5 pc) ACZ in NGC 4261, where the jet is accelerated via magnetic-to-kinetic energy conversion while being confined by external pressure. A brief comparison with M 87 suggests that the ACZ in NGC 4261 may represent a scaled-down analogue of that in M 87. These results point towards a potential diversity in jet ACZ properties, emphasizing the importance of extending such studies to a broader AGN population to elucidate the physical mechanisms at play.