Bibcode
DOI
Gutierrez, C. M.; McKeith, C. D.; Prada, F.
Referencia bibliográfica
Astrophysical Journal v.495, p.765
Fecha de publicación:
3
1998
Número de citas
12
Número de citas referidas
10
Descripción
This paper presents observations made at intermediate spectral and
spatial resolutions along the major and minor axes of the starburst
galaxy NGC 253. The spectral ranges analyzed are in the region of the
stellar Mg I b (~5175 Angstroms) line, in the near-IR Ca II triplet
(~8550 Angstroms) absorption features, and in the region of the H alpha
emission line. We compare the shape of the stellar features with those
of reference stars and determine the line-of-sight velocity distribution
of the stellar component by using a two-dimensional Gaussian
decomposition algorithm, and we show for the first time the rotation
curve of the stellar component in NGC 253. Comparing the recession
velocity curves of the gas and stars, we show that the stellar component
has a decoupled kinematics with respect to the gas, displaying a
shallower velocity gradient and larger velocity dispersion than the gas
in the inner regions. The minor-axis kinematics, together with the
kinematics across the central 40" along the major axis, suggest the
presence of a rotating body with a kinematically misaligned axis with
respect to the main disk of the galaxy. The asymmetries in the LOS
velocity distribution along the minor axis, together with the steep
velocity gradient of the gaseous component, suggest a merger scenario as
the source of these kinematic signatures. The enclosed mass in the
central regions is computed to be (2.4 +/- 0.5) x 107 M&sun; for a
radius of r = 0."7 (10 pc). A double gaseous component in the central 6"
is detected from the [S III] lambda 9069 Angstroms data along the minor
axis; this seems to be the signature of a superbubble, due to a
supernova rate of 0.05 yr-1.