Numerical simulation of valence losses in MgO cubes

Valence losses can be conveniently computed using classical dielectric excitation theory. In the non-relativistic case, the losses can be simulated using a distribution of surface and interface charges. These charges interact self-consistently with each other as well as with the incident electron. This method is used to analyse experimental STEM energy loss spectra for various incident beam positions near MgO cubes. The characteristic contributions of the cube edges are identified.