We present a theoretical framework for calculating probe-position-dependent electron energy-loss near-edge structure for the scanning transmission electron microscope by combining density functional theory with dynamical scattering theory. We show how simpler approaches to calculating near-edge structure fail to include the fundamental physics needed to understand the evolution of near-edge structure as a function of probe position and investigate the dependence of near-edge structure on probe size. It is within this framework that density functional theory should be presented, in order to ensure that variations of near-edge structure are truly due to local electronic structure and how much from the diffraction and focusing of the electron beam.
Revised: March 18, 2015 |
Published: March 31, 2014
Citation
Oxley M.P., M.D. Kapetanakis, M.P. Prange, M. Varela, S.J. Pennycook, and S.T. Pantelides. 2014.Simulation of Probe Position-Dependent Electron Energy-Loss Fine Structure.Microscopy and Microanalysis 20, no. 3:784-797.PNNL-SA-105397.doi:10.1017/S1431927614000610