Provided by: libxray-absorption-perl_3.0.1-3_all 
NAME
Xray::Absorption::Chantler - Perl interface to the Chantler tables
SYNOPSIS
use Xray::Absorption;
Xray::Absorption -> load("chantler");
See the documentation for Xray::Absorption for details.
DESCRIPTION
This module is inherited by the Xray::Absorption module and provides access to the data
contained in the Chantler tables of anomalous scattering factors and line and edge
energies.
The data in this module, referred to as "The Chantler Tables", was published as
C. T. Chantler
Theoretical Form Factor, Attenuation, and Scattering Tabulation
for Z = 1 - 92 from E = 1 - 10 eV to E = 0.4 - 1.0 MeV
J. Phys. Chem. Ref. Data 24, 71 (1995)
This can be found on the web at
http://physics.nist.gov/PhysRefData/FFast/Text/cover.html
The Chantler data is available on the web at
http://physics.nist.gov/PhysRefData/FFast/html/form.html
More information can be found on the personal web page of C.T. Chantler
http://optics.ph.unimelb.edu.au/~chantler/home.html
The data contained in a database file called chantler.db which is generated at install
time from the flat text files of the Chantler data. The data is stored in a Storable
archive using "network" ordering. This allows speedy disk and memory access along with
network and platform portability.
The required "File::Spec", "Chemistry::Elements", and "Storable" modules are available
from CPAN.
METHODS
The behaviour of the methods in this module is a bit different from other modules used by
"Xray::Absorption". This section describes methods which behave differently for this data
resource.
"get_energy"
Example:
$energy = Xray::Absorption -> get_energy($elem, $edge);
This behaves similarly to the "get_energy" method of the other resources. When using
the Chantler data resource, $edge can be any of K, L1-L3, M1-M5, N1-N7, O1-O5, or
P1-P3. Line energies are not supplied with the Chantler data set. The line energies
from the McMaster tables are used.
"cross_section"
Example:
$xsec = Xray::Absorption -> cross_section($elem, $energy, $mode);
This behaves slightly differently from the similar method for the McMaster and Elam
resources. The Chantler tables contain anomalous scattering factors and the sum of
the coherent and incoherent scattering cross-sections. The photo-electric cross-
section is calculated from the imaginary part of the anomalous scattering by the
formula
mu = 2 * r_e * lambda * conv * f_2
where, "r_e" is the classical electron radius, lamdba is the photon wavelength, and
conv is a units conversion factor.
r_e = 2.817938 x 10^-15 m
lambda = 2 pi hbar c / energy
hbar*c = 1973.27053324 eV*Angstrom
conv = Avagadro / atomic weight
= 6.022045e7 / weight in cgs
The $mode argument is different here than for the other resources. The options are
"xsec", "f1", "f2", "photo", and "scatter" telling this method to return the full
cross-section cross-section, the real or imaginary anomalous scattering factor, just
the photoelectric crosss-section, or just the coherent and incoherent scattering,
respectively.
The values for f1 and f2 are computed by linear interpolation of a semi-log scale, as
described in the literature reference. Care is taken to avoid the discontinuities at
the edges.
EDGE AND LINE ENERGIES
The Chantler data resource provides a fairly complete set of edge energies. Any edge
tabulated on the Gwyn William's Table of Electron Binding Energies for the Elements
(that's the one published by NSLS and on the door of just about every hutch at NSLS) is in
the Chantler data resource. The Chantler data comes with the same, limited set of
fluorescence energies as McMaster.
BUGS AND THINGS TO DO
• It would be nice to improve the inter-/extrapolation near absorption edges. As it
stands, these tables produce really poor DAFS output.
AUTHOR
Bruce Ravel, bruce@phys.washington.edu
http://feff.phys.washington.edu/~ravel/software/Absorption