Neutral oxygen in planetary nebulae - Probing radiative transfer and nebular structure

Details Neutral oxygen in planetary nebulae - Probing radiative transfer and nebular structure Neutral oxygen in planetary nebulae - Probing radiative transfer and nebular structure

Aug 1991

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991apj...377..210r&link_type=abstract

Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 377, Aug. 10, 1991, p. 210-226. Research supported by University of Toronto

Astronomy and Astrophysics

Astrophysics

16

Astronomical Spectroscopy, Forbidden Transitions, Neutral Gases, Oxygen Spectra, Planetary Nebulae, Radiative Transfer, Diffuse Radiation, Massive Stars, Stellar Temperature

Scientific paper

For the first time, forbidden O I 5577 A and forbidden O I 6364 A have together been mapped across planetary nebulae, making possible direct measurement of transition zone temperatures. In NGC 2440, the neutral oxygen temperature is 10,400 + or - 600 K, compared with 10,200 + or - 200 K for the forbidden N II temperature and 14,100 + or - 300 K for the forbidden O III temperature. The forbidden O I temperature in NGC 3918 is 13,000 + or - 900 K, significantly different from that in NGC 2440. Models computed with the nebula code CLOUDY successfully reproduce the forbidden O I and forbidden O III temperatures observed in NGC 2440, indicating that the implemented blend of on-the-spot and outward-only approximations to the transfer of diffuse radiation is a reasonable representation of reality. Even though radiation hardening enhances the heating at large optical depths within a planetary nebula, an increase in the cooling efficiency can present a concomitant rise in temperature. It is predicted that hot transition zones, as observed in NGC 3918, should be restricted to nebulae with cooler central stars and metal abundances (particularly N) at or below solar.

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