Resonance Averaged Photoionization Cross Sections for Astrophysical
Models
M. A. Bautista (1) P. Romano (2) and A. K. Pradhan (2),
Astrophys.J.Suppl. 118, 259 (1998)
(1) IVIC, Venezuela
(2) Astronomy Department, Ohio State University
Abstract
We present ground state photoionization cross sections of atoms and ions
averaged over resonance structures for photoionization modeling of
astrophysical sources. The detailed cross sections calculated in the
close-coupling approximation using the R-matrix method, with resonances
delineated at thousands of energies, are taken from the Opacity Project
database TOPbase and the Iron Project, including new data for the low ionization
stages of iron Fe I--V. The resonance-averaged cross sections are obtained by
convolving the detailed cross sections with a Gaussian distribution over the
autoionizing resonances. This procedure is expected to minimize errors in the
derived ionization rates that could result from small uncertainties in computed
positions of resonances, while preserving the overall resonant contribution to
the cross sections in the important near threshold regions. The detailed
photoionization cross sections at low photon energies are complemented by new
relativistic distorted-wave calculations for Z<= 12, and from central-field
calculations for Z>12 at high energies, including inner-shell ionization.
The effective cross sections are then represented by a small number of points
that can be readily interpolated linearly for practical applications; a Fortran
subroutine and data are available. The present numerically averaged cross
sections are compared with analytic fits that do not accurately represent the
effective cross sections in regions dominated by resonances.
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Updated: 1998, March 30.
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