Relativistic photoemission theory for general nonlocal potentials
arXiv:cond-mat/9908294 · doi:10.1002/(SICI)1521-3951(199912)216:2<1023::AID-PSSB1023>3.0.CO;2-C
Abstract
An improved formulation of the one-step model of photoemission from crystal surfaces is proposed which overcomes different limitations of the original theory. Considering the results of an electronic-structure calculation, the electronic (one-particle) potential and the (many-body) self-energy, as given quantities, we derive explicit expressions for the dipole transition-matrix elements. The theory is formulated within a spin-polarized, relativistic framework for general nonspherical and space-filling one-particle potentials and general nonlocal, complex and energy-dependent self-energies. It applies to semi-infinite lattices with perfect lateral translational invariance and arbitrary number of atoms per unit cell.
LaTeX, 18 pages, no figure