Bibcode
Vila-Vilaro, B.; Robinson, A.; Perez, E.; Axon, D. J.; Baum, S. A.; Gonzalez-Delgado, R. M.; Pedlar, A.; Perez-Fournon, I.; Perry, J. J.; Tadhunter, C. N.
Bibliographical reference
Astronomy and Astrophysics, v.302, p.58
Advertised on:
10
1995
Journal
Citations
29
Refereed citations
26
Description
We report broad-band imaging observations which reveal a circum-nuclear
gas ring in NGC 4151. The ring is delineated by two arc-like features
probably resulting from dust extinction of the background stellar
continuum. These features are distributed along opposite quadrants of an
elliptical ring which has a semi-major axis of length 1.8kpc and is
approximately aligned with the NE-SW axis of elongation of the extended
emission line region. We discuss this ring in relation to the spatial
distribution and kinematics of both ionized and neutral gas components
as revealed by published optical spectroscopy and 21-cm observations.
These data allow us to form a coherent picture of the gas flows in the
circum-nuclear environment of NGC 4151 which is strikingly similar to
numerical simulations of streaming induced by barred potentials in which
the x2 family of orbits is well developed. On this basis, we propose
that the distribution of gaseous material in the galactic bar of NGC
4151 traces the path by which the gas is transported towards the active
nucleus. The alignment between the circum-nuclear ring and the ENLR can
then be seen as a strong indication that the collimation of the ionizing
radiation field of the active nucleus is related to the dynamical
parameters of the galactic bar. Specifically, we propose that bar-driven
gas flows create the opaque torus which is believed to collimate the
radiation field.