Mass Loss from Planetary Nebulae in Elliptical Galaxies

Details Mass Loss from Planetary Nebulae in Elliptical Galaxies Mass Loss from Planetary Nebulae in Elliptical Galaxies

Jul 2009

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009apj...699..923b&link_type=abstract

The Astrophysical Journal, Volume 699, Issue 2, pp. 923-932 (2009).

Astronomy and Astrophysics

Astronomy

11

Cooling Flows, Galaxies: Ism, Stars: Mass Loss, X-Rays: Galaxies

Scientific paper

Early-type galaxies possess a dilute hot ((2-10) × 106 K) gas that is probably the thermalized ejecta of the mass loss from evolving stars. We investigate the processes by which the mass loss from orbiting stars interacts with the stationary hot gas for the case of the mass ejected in a planetary nebula event. Numerical hydrodynamic simulations show that at first, the ejecta expands nearly symmetrically, with an upstream bow shock in the hot ambient gas. At later times, the flow past the ejecta creates fluid instabilities that cause about half of the ejecta to separate and the other half to flow more slowly downstream in a narrow wake. When radiative cooling is included, most of the material in the wake (>80%) remains below 105 K while the separated ejecta is hotter (105-106 K). The separated ejecta is still less than one-quarter the temperature of the ambient medium and the only way it will reach the temperature of the ambient medium is through turbulent mixing (after the material has left the grid). These calculations suggest that a significant fraction of the planetary nebula ejecta may not become part of the hot ambient material. This is in contrast to our previous calculations for continuous mass loss from giant stars in which most of the mass loss became hot gas. We speculate that detectable O VI emission may be produced, but more sophisticated calculations will be required to determine the emission spectrum and to better define the fraction of cooled material.

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