We investigate the development of bipolar outflows during the early post-AGB
evolution. A sample of ten OH/IR stars is observed at high angular resolution,
including bipolar nebulae (OH231.8+4.2), bright post-AGB stars (HD 101584) and
reflection nebulae (e.g. Roberts 22). The IRAS colour--colour diagram separates
the sample into different types of objects. One group may contain the
progenitors to the (few) extreme bipolar planetary nebulae. Two objects show
colours and chemistry very similar to the planetary nebulae with late IR-[WC]
stars. One object is a confirmed close binary.
A model is presented consisting of an outer AGB wind which is swept up by a
faster post-AGB wind, with either wind being non-spherically symetric. The
interface of the two winds is shown to exhibit a linear relation between
velocity and distance from the star. The OH data confirms the predicted linear
velocity gradients, and reveals torus-like, uniformly expanding components. All
sources are discussed in detail using optical/HST images where available. ISO
data for Roberts 22 reveal a chemical dichotomy, with both crystalline
silicates and PAHs features being present. IRAS 16342-3814 shows a dense torus;
HST data shows four point-like sources located symmetrically around the nebula,
near the outer edge of the dense torus.
Lifetimes for the bipolar OH/IR stars are shown to be in excess of 10^4 yr,
longer than normal post-AGB timescales. This suggests that the disks are
near-stationary. We suggest that accretion from such a disk slows down the
post-AGB evolution. Such a process could explain the link between the
long-lived bipolar nebular geometry and the retarded star.Comment: 31 pages, LaTeX using mn.sty. MNRAS, accepted for publicatio
We present spectra and high-resolution images taken with HST, the NTT, the VLA, and the MPIA/ESO 2.2m of the emission-line star He 3-1475 which we suggest is a post-AGB star. The star is presumed to be at the origin of a 15 00 long structure containing symmetrically opposing bright knots. The knots have radial velocities of 500 km s 1 from the center of He 3-1475 to the ends of the jets. HST snapshots show that the core of He 3-1475 is unipolar with a star at the SE end and the nebula fanning out toward the NW. VLA observations show the presence of OH masers, which are positioned parallel to the optical jets. A model is proposed that accounts for all of the observational data. This unusual object may link the OH/IR stars having extreme out ow velocities with highly bipolar planetary nebulae.
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