arXiv:cond-mat/9709070 Abstract

arXiv:cond-mat/9709070Abstract References Reviews Resources

Statistical properties of the time evolution of complex systems. I

Published 1997-09-05Version 1

The time evolution of a bounded quantum system is considered in the framework of the orthogonal, unitary and symplectic circular ensembles of random matrix theory. For an $N$ dimensional Hilbert space we prove that in the large $N$ limit the return amplitude to the initial state and the transition amplitude to any other state of Hilbert space are Gaussian distributed. We further compute the exact first and second moments of the distributions. The return and transition probabilities turn out to be non self-averaging quantities with a Poisson distribution. Departures from this universal behaviour are also discussed.

Comments: 7 pages LaTeX

Categories: cond-mat.mes-hall, chao-dyn, nlin.CD

Keywords: time evolution, complex systems, statistical properties, transition probabilities turn, symplectic circular ensembles

Related articles: Most relevant | Search more

arXiv:cond-mat/9707187 (Published 1997-07-18, updated 1997-10-18)

Quantum Versus Classical Decay Laws in Open Chaotic Systems

Dmitry V. Savin, Valentin V. Sokolov

arXiv:cond-mat/9810400 (Published 1998-10-30)

Universal Level dynamics of Complex Systems

Pragya Shukla

arXiv:cond-mat/9608073 (Published 1996-08-17, updated 1996-11-05)

Statistical properties of the low-temperature conductance peak-heights for Corbino discs in the quantum Hall regime

N. R. Cooper, B. I. Halperin, Chin-Kun Hu, I. M. Ruzin

arXiv Analytics