Finite difference method calculations of X-ray absorption fine structure for copper
- 作者:J.D. Bourke ; C.T. Chantler ; C. Witte
- 关键词:X-ray absorption ; Fine structure ; Finite difference methods ; XAFS ; FDMNES ; Copper
- 刊名:Physics Letters A
- 出版年:2007
- 期刊代码:57_03759601
- 类别:ph
- 出版时间:15 January 2007
- 卷:360
- 期:6
- 页码:702-706
- 文件大小:244 K
摘要
The finite difference method is extended to calculate X-ray absorption fine structure (XAFS) for solid state copper. These extensions include the incorporation of a Monte Carlo frozen phonon technique to simulate the effect of thermal vibrations under a correlated Debye–Waller model, and the inclusion of broadening effects from inelastic processes. Spectra are obtained over an energy range in excess of 300 eV above the K absorption edge—more than twice the greatest energy range previously reported for a solid state calculation using this method. We find this method is highly sensitive to values of the photoelectron inelastic mean free path, allowing us to probe the accuracy of current models of this parameter, particularly at low energies. We therefore find that experimental data for the photoelectron inelastic mean free path can be obtained by this method. Our results compare favourably with high precision measurements of the X-ray mass attenuation coefficient for copper, reaching agreement to within 3%, and improving previous results using the finite difference method by an order of magnitude.