D. A. Wisniacki, F. Borondo, R. M. Benito
Published 2003-09-10Version 1
Quantum trajectories defined in the de Broglie--Bohm theory provide a causal way to interpret physical phenomena. In this Letter, we use this formalism to analyze the short time dynamics induced by unstable periodic orbits in a classically chaotic system, a situation in which scars are known to play a very important role. We find that the topologies of the quantum orbits are much more complicated than that of the scarring and associated periodic orbits, since the former have quantum interference built in. Thus scar wave functions are necessary to analyze the corresponding dynamics. Moreover, these topologies imply different return routes to the vicinity of the initial positions, and this reflects in the existence of different contributions in each peak of the survival probability function.
Comments: 7 pages, 4 figures. Accepted for publication in Europhysics Letters
Journal: Europhysics Letters 64, 441 (2003)
Spectral Oscillations, Periodic Orbits, and Scaling
Quantum Computing of Poincare Recurrences and Periodic Orbits
From quantum trajectories to classical orbits
