J. A. Mendez-Bermudez, Tsampikos Kottos, Doron Cohen
Published 2004-08-11, updated 2005-03-22Version 2
Considering a quantized chaotic system, we analyze the evolution of its eigenstates as a result of varying a control parameter. As the induced perturbation becomes larger, there is a crossover from a perturbative to a non-perturbative regime, which is reflected in the structural changes of the local density of states. For the first time the {\em full} scenario is explored for a physical system: an Aharonov-Bohm cylindrical billiard. As we vary the magnetic flux, we discover an intermediate twilight regime where perturbative and semiclassical features co-exist. This is in contrast with the {\em simple} crossover from a Lorentzian to a semicircle line-shape which is found in random-matrix models.
Comments: 4 pages, 4 figures, improved version
Journal: Phys. Rev. E 72, 027201 (2005)
Perturbation theory for dispersion relations of spacetime-periodic materials
Interactions and Weak Localization: Perturbation Theory and Beyond
1/(N-1) expansion based on a perturbation theory in U for the Anderson model with N-fold degeneracy
