Hopkins Ultraviolet Telescope observations of H2 toward the planetary nebula NGC 1535

Details Hopkins Ultraviolet Telescope observations of H2 toward the planetary nebula NGC 1535 Hopkins Ultraviolet Telescope observations of H2 toward the planetary nebula NGC 1535

May 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995apj...444..748b&link_type=abstract

Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 444, no. 2, p. 748-757

Astronomy and Astrophysics

Astronomy

11

Galactic Halos, Hydrogen, Interstellar Matter, Mathematical Models, Planetary Nebulae, Ultraviolet Telescopes, Absorption Spectra, Astro Missions (Sts), Data Reduction, Emission Spectra, Spectral Resolution, Ultraviolet Astronomy

Scientific paper

We have observed the far-ultraviolet spectrum (912-1860 A) of the bright high-excitation planetary nebula NGC 1535 with approximately 3 A resolution using the Hopkins Ultraviolet Telescope (HUT) aboard the Astro-1 space shuttle mission in 1990 December. We see strong continuum emission down to the Lyman limit and strong P Cygni profiles from high-excitation lines such as C IV wavelength 1549, N V wavelength 1240, O V wavelength 1371, and O VI wavelength 1035. Below 1150 A strong absorption bands of H2 are seen, which were unanticipated by us because of the low reddening and high galactic latitude of the object and the absence of detected H2 emission in the infrared. We construct model H2 spectra and convolve them to the HUT resolution for comparison with the NGC 1535 data. We find good agreement with a population distribution characterized by a single temperature (T = 300 K) or a two-temperature model (T = 144/500 K), and determine limits on the H2 column density. While both inter-stellar and circumstellar origins for the observed H2 absorption are plausible, we ascribe the material to the planetary nebula in order to estimate the conditions of excitation and place upper limits on the mass of both H2 and H1 in this system. Because the UV transitions are ground-state connected, we determine a stringent upper limit of 0.03 d21.6 solar mass on the mass of H2, where d1.6 is the distance relative to an assumed distance of 1.6 kpc. This value is less model-dependent than IR estimates. Along with the central star and nebular masses, these estimates allow us to limit the main-sequence mass of the progenitor star to less than 1.8 solar mass. This upper limit is consistent with a relatively low-mass extended thick disk or Population II progenitor, as expected for an object approximately 1 kpc off the galactic plane.

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