Local Density of States and Level Width for Wannier-Stark Ladders
arXiv:cond-mat/9307049 · doi:10.1103/PhysRevB.48.2215
Abstract
The local density of states Ï(x,E) is calculated for a Bloch electron in an electric field. Depending on the system size, we can see one or more sequences of Wannier-Stark ladders in Ï(x,E), with Lorentz type level widths and apparent spatial localization of the states. Our model is a chain of delta function potential barriers plus a step-like electric potential, with open boundary condition at both ends of the system. Using a wave tunneling picture, we find that the level widths shrink to zero as an inverse power as the system size approaches infinity, confirming an earlier result.
14 pages, plain TeX, 9 figures not included, available on request, to be published in Phys.Rev.B47