Three-dimensional photoionisation modelling of the hydrogen-deficient knots in the planetary nebula Abell 30

Details Three-dimensional photoionisation modelling of the hydrogen-deficient knots in the planetary nebula Abell 30 Three-dimensional photoionisation modelling of the hydrogen-deficient knots in the planetary nebula Abell 30

2003-06-11

arxiv.org/abs/astro-ph/0306230v1

Astronomy and Astrophysics

Astrophysics

11 pages, 4 figures. Accepted for publication by MNRAS

Scientific paper

10.1046/j.1365-8711.2003.06892.x

We have constructed a photoionization model, using the 3-D Monte Carlo code MOCASSIN for one of the hydrogen-deficient knots (J3) of the born-again planetary nebula Abell 30. The model consists of spherical knots, comprising a cold, dense, hydrogen-deficient core with very high metal abundances. The inner core is surrounded by a less dense hydrogen-deficient and metal-enriched gas envelope, with less extreme abundances. The envelope of the knot might have been formed by the mixing of the knot material with the surrounding nebular gas. This bi-chemistry, bi-density model did not produce enough heating to match the fluxes of the collisionally excited emission lines (CELs) and of the optical recombination lines (ORLs) observed in the spectrum of the knot. We therefore included heating by photoelectric emission from dust grains in the thermal equilibrium calculations, and found that dust-to-gas ratios of 0.077 and 0.107 by mass for the central core and the envelope of the knot, respectively, are sufficient to fit the spectrum. Surprisingly, photoelectric emission from grains is the dominant source of heating in the hot envelope of the knot, while heating by photoionization of helium and heavy elements dominates in the cold core. The chemical abundances inferred from our modelling indicate, in agreement with the empirical analysis of Wesson et al. (2003), that the C/O ratio in the two regions of the knot is less than unity, contrary to theoretical predictions for born-again nebulae.

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