Bibcode
Zurita, A.; Beckman, J. E.; Rozas, M.; Ryder, S.
Referencia bibliográfica
Astronomy and Astrophysics, v.386, p.801-815 (2002)
Fecha de publicación:
5
2002
Revista
Número de citas
74
Número de citas referidas
65
Descripción
In this paper we make a quantitative study of the hypothesis that the
diffuse Hα emitted from the discs of spiral galaxies owes its
origin to the ionizing photons escaping from H SHAPE II regions. The
basis of the models is the assumption that a fraction of the Lyman
continuum (Lyc) luminosity from the OB stars within each H SHAPE II
region escapes from the region, leaking into the diffuse gas. A basic
input element of any such model is a position and luminosity catalogue
in Hα of the H SHAPE II regions in the galaxy under examination,
down to a low limiting luminosity, and we have previously produced a
catalogue of this type for NGC 157. An initial family of models can then
be generated in which the Lyc escaping from an H SHAPE II region is
parametrized in terms of the observed Hα luminosity of the region
and the escaping fluxes allowed through the diffuse disc gas. These
models can then be refined using a measured map of H SHAPE I surface
density to effect the down-conversion of the Lyc to Hα . For NGC
157 an H SHAPE I map was available. Although its moderate angular
resolution did limit the accuracy with which we could test our models,
the predicted diffuse Hα surface brightness distributions from our
models were compared with the observed distributions showing that, in
general terms, the hypothesis of density bounding for the H SHAPE II
regions allows us to predict well the spatial distribution of the
diffuse ionized gas. In the model yielding the best fit to the data, the
regions of lower luminosity lose a constant fraction of their ionizing
flux to their surroundings, while for H SHAPE II region luminosities
above a specific transition value the ionizing escape fraction is a
rising function of the Hα luminosity.