A method has been developed which allows the simultaneous refinement o
f X-ray powder diffraction data and one or more EXAFS spectra from the
same sample using a single coordinate description of the structure. T
he positional parameters of the atoms are refined together with isotro
pic thermal factors, peak shape and amplitude parameters, and the EXAF
S energy zeros for each absorption edge. Where correlations between sh
ells can be calculated, as with Cu for which Debye theory can be used,
EXAFS mean square displacements can be derived from the isotropic the
rmal factors, otherwise these must be introduced as separate variables
. The program determines the point symmetry and radial coordinates of
each site occupied by an atom for which EXAFS data are available, allo
wing a full multiple scattering calculation to be performed for each s
ite. Mixed or partial occupancy of sites is permitted. The method allo
ws us to determine accurately the position of oxygen and other light a
toms in materials where the diffraction pattern is dominated by heavy
atoms, and to determine the occupancy of sites where elements of simil
ar scattering amplitude are involved. Results are particularly good wh
ere the EXAFS of several absorbing atoms are available.