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Astron. Astrophys. 347, 650-668 (1999)
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The dynamical signature of the ISM in soft X-rays
I. Diffuse soft X-rays from galaxies
Dieter Breitschwerdt * 1 and
Thomas Schmutzler ** 2
1 Max-Planck-Institut für Extraterrestrische Physik, Postfach 1603, D-85740 Garching, Germany (breitsch@mpe.mpg.de)
2 Am Beisenkamp 12, D-44866 Bochum, Germany (Th.Schmutzler@t-online.de)
Received 3 August 1998 / Accepted 25 January 1999
Abstract
We present the first dynamically and thermally self-consistent
calculations of fast adiabatically expanding gas flows from the
Galactic disk into the halo. It is shown that in a hot plasma
(![[FORMULA]](img1.gif)
) with a high overpressure with
respect to the ambient medium, the dynamical time scale is much
shorter than the intrinsic time scales (e.g. for recombination,
collisional excitation and ionization etc.). Therefore dynamical
models that use collisional ionization equilibrium (CIE) cooling
functions for the evolution of the plasma are in general not correct.
In particular, the emission spectra obtained from non-equilibrium
calculations are radically different. We describe a method to obtain
self-consistent solutions using an iterative procedure. It is
demonstrated that soft X-ray background emission between 0.3 and
1.5 keV can be well explained by a superposition of line emission and
delayed recombination of an initially hot plasma streaming away from
the Galactic disk (outflow and/or winds). In addition to these local
winds we also present calculations on global winds from spiral
galaxies, which originate from a hot and quiescent galactic corona. We
also emphasize that it is dangerous to derive plasma temperatures
merely from line ratios of ionized species, such as N V
/O VI , unless the dynamical and thermal history of the
plasma is known.
Key words: Magnetohydrodynamics
(MHD) 
ISM: cosmic
rays
ISM: general
ISM: jets and
outflows
galaxies: halos
X-rays: ISM
* Heisenberg Fellow
** deceased
Send offprint requests to: D. Breitschwerdt
© European Southern Observatory (ESO) 1999
Online publication: June 30, 1999
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