Bibcode
Gonzalez Delgado, Rosa M.; Perez, Enrique
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 284, Issue 4, pp. 931-945.
Fecha de publicación:
2
1997
Número de citas
35
Número de citas referidas
33
Descripción
This article presents Hα and [O iii] narrow-band images and
long-slit optical and near-infrared spectroscopy at position angles 65.5
deg and 25 deg through the circumnuclear region in the Seyfert 1 galaxy
NGC 3227. After subtraction of a bulge+disc model, the continuum image
at lambda5900A shows an excess of emission aligned with the companion
galaxy NGC 3226. We attribute this emission to a stellar bar induced by
the interaction. Along the leading parts of the bar, we find dust lanes
and 70 per cent of the H ii regions detected in the disc. The Hα
and [O iii] images show extended emission in the circumnuclear region
with very different morphologies. [O iii] is elongated to the north and
nearly aligned with the bar. This emission is formed by two kinematical
components, a broad component blueshifted with respect to a narrower
component. The blue component could be photoionized by radiation from
the active nucleus, but the red component might be associated with the
starburst detected to the west. The Hα image is aligned along
PA=65 deg, and shows a bright knot at 4arcsec south-west of the nucleus
and a shell-like structure; there the line ratios can be fitted by
photoionization by a stellar source. To the north-east, the spectrum
shows characteristics of a high-excitation low-ionization nuclear
emission region (LINER), and the line ratios can be explained as
photoionization by a blackbody with a temperature of 140 000K,
ionization parameter 0.001, and solar chemical composition with an
overabundance of N and S. Even though Hα and [O iii] present
different morphologies, both are extended 500pc from the nucleus, inside
the inner Lindblad resonance; this suggests that gravitational torques,
associated with the non-axisymmetric potential produced by the bar and
by interaction with the companion galaxy, transport the gas to the inner
Lindblad resonance (ILR), from where it fuels the circumnuclear region
in NGC 3227.