Abstract
In conventional EXAFS (extended x-ray-absorption fine-structure) analyses, reliable structures are obtained with different values of absorption-edge energy ${E}_{0}$ for different neighboring atoms. It is shown in this study that the Ge K-edge EXAFS resulting from the Ge-Ge and Ge-Si bonds in hydrogenated amorphous Si-Ge alloys can be excellently explained by a unique ${E}_{0}$ value provided that a newly developed formula based on the spherical wave functions of photoelectrons is employed. The ${E}_{0}$ value is just at the steepest point in the experimental edge-jump curve. With the conventional formula the adjusted ${E}_{0}$ values for the Ge-Ge and Ge-Si bonds differ by 7 eV at maximum, and in addition they deviate by 3 eV at least from the steepest point.
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