H2 Emission from Planetary Nebulae: Signpost of Bipolar Structure

Details H2 Emission from Planetary Nebulae: Signpost of Bipolar Structure H2 Emission from Planetary Nebulae: Signpost of Bipolar Structure

May 1996

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996apj...462..777k&link_type=abstract

Astrophysical Journal v.462, p.777

Astronomy and Astrophysics

Astronomy

130

Infrared: Ism: Lines And Bands, Ism: Molecules, Ism: Planetary Nebulae: General, Ism: Structure

Scientific paper

We report the results of an imaging survey of 2.122 μm H2 emission from 60 planetary nebulae (PNs). We detected 23 PNs, including 11 first-time detections. Adding from the literature 48 PNs previously searched for H2, we find that ˜40% of the combined sample displays H2 emission. The detections are dominated by objects that possess bipolar morphology (i.e., those that display well-defined polar lobes and/or equatorial regions in optical images). All seven H2-emitting PNs that are not considered bipolar (based on Hα images) are rings or disks, which strongly suggests that these objects are in fact bipolar PNs viewed at large inclinations. This interpretation also follows from the fact that the brightest H2 emission is typically located along the equatorial plane (waist) of a bipolar nebula and that several nebulae that are bipolar in optical emission lines appear ringlike in H2. We therefore confirm the validity of Gatley's rule: the detection of H2 emission from a PN confirms the bipolar structure of that PN. The H2-bright waist (or torus, in the case of a Ring-like PN) is presumably the remnant of a molecule-rich circumstellar disk that predates the production of a PN. We confirm and strengthen the claim that PNs detected in H2 are confined to lower Galactic latitudes, and therefore had larger progenitor masses, than PNs without detectable emission. These results therefore reinforce the connection between PN progenitor mass, PN morphology, and the presence or absence of 2.122 μm H2 emission.

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