Quantum integrability and nonintegrability in the spin-boson model
Abstract
We study the spectral properties of a spin-boson Hamiltonian that depends on two continuous parameters (interaction strength) and (integrability switch). In the classical limit this system has two distinct integrable regimes, and . For each integrable regime we can express the quantum Hamiltonian as a function of two action operators. Their eigenvalues (multiples of ) are the natural quantum numbers for the complete level spectrum. This functional dependence cannot be extended into the nonintegrable regime . Here level crossings are prohibited and the level spectrum is naturally described by a single (energy sorting) quantum number. In consequence, the tracking of individual eigenstates along closed paths through both regimes leads to conflicting assignments of quantum numbers. This effect is a useful and reliable indicator of quantum chaos -- a diagnostic tool that is independent of any level-statistical analysis.
Cite
@article{arxiv.0802.2815,
title = {Quantum integrability and nonintegrability in the spin-boson model},
author = {Vyacheslav V. Stepanov and Gerhard Muller and Joachim Stolze},
journal= {arXiv preprint arXiv:0802.2815},
year = {2009}
}