Next Section: Introduction
J. Bland-Hawthorn
Anglo-Australian Observatory
P.O. Box
296
Epping
NSW 2121
P.R. Maloney
CASA
University of Colorado
Boulder
CO 80309-0389
There has been much debate in recent decades as to what fraction of
ionizing photons from star forming regions in the Galactic disk
escape into the halo. The recent detection of the Magellanic Stream
in optical line emission at the CTIO 4m and the AAT 3.9m telescopes
may now provide the strongest evidence that at least some of the
radiation escapes the disk completely. We present a simple model to
demonstrate that, while the distance to the Magellanic Stream is
uncertain, the observed emission measures (
cm
pc) are most plausibly explained by photoionization due
to hot, young stars. This model requires that the mean Lyman-limit
opacity perpendicular to the disk is 
, and the
covering fraction of the resolved clouds is close to unity.
Alternative sources (e.g. shock, halo, LMC or metagalactic
radiation) contribute negligible ionizing flux.
Keywords: interstellar medium - intergalactic medium - individual object: Magellanic Stream - Galaxy: corona, halo - interferometry
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