Chaotic Orbits in Thermal-Equilibrium Beams: Existence and Dynamical Implications
摘要
Phase mixing of chaotic orbits exponentially distributes these orbits through their accessible phase space. This phenomenon, commonly called ``chaotic mixing'', stands in marked contrast to phase mixing of regular orbits which proceeds as a power law in time. It is operationally irreversible; hence, its associated e-folding time scale sets a condition on any process envisioned for emittance compensation. A key question is whether beams can support chaotic orbits, and if so, under what conditions? We numerically investigate the parameter space of three-dimensional thermal-equilibrium beams with space charge, confined by linear external focusing forces, to determine whether the associated potentials support chaotic orbits. We find that a large subset of the parameter space does support chaos and, in turn, chaotic mixing. Details and implications are enumerated.
引用
@article{arxiv.physics/0306006,
title = {Chaotic Orbits in Thermal-Equilibrium Beams: Existence and Dynamical Implications},
author = {Courtlandt L. Bohn and Ioannis V. Sideris},
journal= {arXiv preprint arXiv:physics/0306006},
year = {2009}
}
备注
39 pages, including 14 figures