Bibcode
García-Hernández, D. A.; Manchado, A.; García-Lario, P.; Domínguez-Tagle, C.; Conway, G. M.; Prada, F.
Referencia bibliográfica
Astronomy and Astrophysics, v.387, p.955-968 (2002)
Fecha de publicación:
6
2002
Revista
Número de citas
36
Número de citas referidas
33
Descripción
We present near-IR spectroscopy of a sample of 30 IRAS sources recently
identified as late AGB stars, post-AGB stars or early PNe. The spectra
obtained are centered at various wavelengths covering the molecular
hydrogen v=1-> 0 S(1) 2.122 mu m and v=2->1 S(1) 2.248 mu m
emission lines, the recombination lines of hydrogen Brgamma 2.166 mu m,
Pfgamma 3.741 mu m and Bralpha 4.052 mu m, and the CO[v=2->0] first
overtone bandhead at 2.294 mu m. As a result of these observations we
have detected molecular hydrogen emission for the first time in 9 of
these sources and confirmed a previous detection by Weintraub et al.
(cite{Weintraub98}). This increases from 4 to 13 the total number of
proto-PNe detected in molecular hydrogen. In most cases, the positive
detections also show emission in the recombination lines of hydrogen
(with the exception of IRAS 17150-3224) indicating that the onset of
molecular hydrogen emission takes place in the post-AGB phase, very
shortly before the nebula becomes ionized. When the molecular hydrogen
is fluorescence-excited the detection rate is found to be directly
correlated with the evolutionary stage of the central star, rather than
with the nebular morphology. When the temperature of the central star is
hot enough, fluorescence excitation can be induced by the absorption of
UV photons escaping from the rapidly evolving central post-AGB star. In
contrast, shock-excited molecular hydrogen is detected only in strongly
bipolar proto-PNe, sometimes even at an early stage in the post-AGB
phase. Shock excitation is the consequence of the interaction of the
fast post-AGB wind with the slow wind material ejected during the AGB.
The strong correlation of shock-excited molecular hydrogen emission with
bipolarity found confirms the result previously reported by Kastner et
al. (cite{Kastner96}) in evolved PNe. However, our results show that
this correlation does not exist in the case of fluorescence-excited
molecular hydrogen. Based on observations collected at the European
Southern Observatory (La Silla, Chile).