Bibcode
Nyman, Lars-Aake; Olofsson, Hans; Schwarz, Hugo; Sahai, Raghvendra
Referencia bibliográfica
Asymptotic Giant Branch Stars, IAU Symposium 191 Poster Session, #P4-14, held in Montpellier, France, Aug 28 - Sept 1, 1998.
Fecha de publicación:
0
1998
Número de citas
0
Número de citas referidas
0
Descripción
HR 3126 is an M2 II giant surrounded by the bipolar reflection nebula
IC2220. A sensitive R-band image obtained with the ESO 3.6 m telescope
shows that the nebula has a size of at least 10', corresponding to a
linear size of about 1 pc, and is extended in the east-west direction.
CO(1-0), CO(2-1), and 13CO(1-0) maps obtained with the
Swedish-ESO Submillimetre Telescope (SEST) show line profiles that can
be interpreted as an asymmetric east-west bipolar outflow in the inner
3' of the optical nebula. Due to the unusually large angular extent of
the nebula it is well resolved even in single dish observations. We have
modelled the outflow as a hollow shell, expanding radially with a
velocity proportional to the distance from the star. Such a shell can be
created by a high velocity wind expanding into a previously ejected
asymmetric low-velocity wind. The mass loss event traced by the CO
emission started quite abruptly about 8000 years ago. The CO emission
also traces an equatorial density enhancement, possibly a fragmented
disk, perpendicular to the outflow. The CO excitation temperature in the
outflow is quite low, about 3.8 K, as determined from the (1-0)/(2-1)
line intensity ratios. The total mass of the gas in the nebula is larger
than 0.5 M_odot. We also searched for SiO and OH masers, as well as
emission from SiO (v = 0, J = 2-1), HCN (1-0), HCO^+(1-0), and CS(2-1),
but without detections. The evolutionary stage of the central star is
not clear. It is unlikely that it is a young object since it is not
associated with a molecular cloud. It is probably a post-AGB star that
very recently left the AGB (since it is an early M-star). The bipolar
outflow may have been formed through interaction with a binary
companion, although so far there is no observational evidence for such a
companion.