We consider an electron constrained to move on a surface with revolution symmetry in the presence of a constant magnetic field B parallel to the surface axis. Depending on B and the surface geometry the transverse part of the spectrum typically exhibits many crossings which change to avoided crossings if a weak symmetry breaking interaction is introduced. We study the effect of such perturbations on the quantum propagation. This problem admits a natural reformulation to which tools from molecular dynamics can be applied. In turn, this leads to the study of a perturbation theory for the time dependent Born–Oppenheimer approximation.

Publié le : 2001-07-04
Classification:  [MATH]Mathematics [math]

@article{hal-01260751,
     author = {Exner, Pavel and Joye, Alain},
     title = {Avoided crossings in mesoscopic systems: Electron propagation on a nonuniform magnetic cylinder},
     journal = {HAL},
     volume = {2001},
     number = {0},
     year = {2001},
     language = {en},
     url = {http://dml.mathdoc.fr/item/hal-01260751}
}

Exner, Pavel; Joye, Alain. Avoided crossings in mesoscopic systems: Electron propagation on a nonuniform magnetic cylinder. HAL, Tome 2001 (2001) no. 0, . http://gdmltest.u-ga.fr/item/hal-01260751/