Classical transients and the support of open quantum maps

GABRIEL G. CARLO; DIEGO A. WISNIACKI; F. BORONDO; R. BENITO; LEONARDO ERMANN

PHYSICAL REVIEW E

AMER PHYSICAL SOC

Lugar: New York; Año: 2013 vol. 87 p. 12909 - 12909

1539-3755

The basic ingredients in a semiclassical theory are the classical invariant objects serving as a support for quantization. Recent studies, mainly obtained on quantum maps, have led to the commonly accepted belief that the classical repeller—the set of nonescaping orbits in the future and past evolution—is the object that suitably plays this role in open scattering systems. In this paper we present numerical evidence warning that this may not always be the case. For this purpose we study recently introduced families of tribaker maps [ L. Ermann, G. G. Carlo, J. M. Pedrosa and M. Saraceno Phys. Rev. E 85 066204 (2012)], which share the same asymptotic properties but differ in their short-time behavior. We have found that although the eigenvalue distribution of the evolution operator of these maps follows the fractal Weyl law prediction, the theory of short periodic orbits for open maps fails to describe the resonance eigenfunctions of some of them. This is a strong indication that new elements must be included in the semiclassical description of open quantum systems. We provide an interpretation of the results in order to have hints about them.