Infrared Imaging and Spectroscopy of the Helix with ISOCAM

Details Infrared Imaging and Spectroscopy of the Helix with ISOCAM Infrared Imaging and Spectroscopy of the Helix with ISOCAM

Mar 1998

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998apj...495l..23c&link_type=abstract

Astrophysical Journal Letters v.495, p.L23

Astronomy and Astrophysics

Astronomy

47

Ism: Planetary Nebulae: Individual Ngc Number: Ngc 7293, Infrared: Ism: Lines And Bands, Stars: Agb And Po St-Agb, Stars: Mass Loss

Scientific paper

We report infrared images of the Helix Nebula centered at 6.9 mu m (LW2 filter) and 15 mu m (LW3 filter) obtained with ISOCAM on board the Infrared Space Observatory (ISO). Three fields were also measured using the ISOCAM circular variable filter (CVF). The CVF data show that the 5-16.6 mu m spectrum is dominated by the pure ( v=0-0 ) rotational lines of molecular hydrogen from the S(7) to the S(2) transitions. The strong S(5) H2 line accounts for most of the emission detected in the LW2 filter. The only atomic lines detected are [Ne II] 12.81 mu m and [Ar III] 8.99 mu m, which are weak, and [Ne III] 15.55 mu m, which is strong and accounts for most of the emission in the LW3 filter. No emission bands or continuum of small dust particles are detected despite the carbon richness of the Helix Nebula. The H2 emission traces the individual cometary globules of the molecular envelope of the nebula, whereas the [Ne III] emission is distributed along this envelope toward the inner regions of the ionized cavity. The intensities of H2 rotational lines are accurately predicted using a rotational temperature of 900+/-50 K and column densities of ~ 3x1018 cm-2. The total luminosity in the H2 lines ~4 Lsolar (6% of the star luminosity) is much higher than predicted for photodissociation regions. The significant absence of mid-infrared dust features indicates that in this evolved planetary nebula, the molecular-sized dust particles might have been destroyed by the exposure to the radiation field from the central hot star.

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