A topological formulation for exotic quantum holonomy
Abstract
An adiabatic change of parameters along a closed path may interchange the (quasi-)eigenenergies and eigenspaces of a closed quantum system. Such discrepancies induced by adiabatic cycles are refereed to as the exotic quantum holonomy, which is an extension of the geometric phase. "Small" adiabatic cycles induce no change on eigenspaces, whereas some "large" adiabatic cycles interchange eigenspaces. We explain the topological formulation for the eigenspace anholonomy, where the homotopy equivalence precisely distinguishes the larger cycles from smaller ones. An application to two level systems is explained. We also examine the cycles that involve the adiabatic evolution across an exact crossing, and the diabatic evolution across an avoided crossing. The latter is a nonadiabatic example of the exotic quantum holonomy.
Keywords
Cite
@article{arxiv.1507.02827,
title = {A topological formulation for exotic quantum holonomy},
author = {Atushi Tanaka and Taksu Cheon},
journal= {arXiv preprint arXiv:1507.02827},
year = {2016}
}
Comments
4 pages, 4 figures. For the proceedings of Second Dynamics Days Central Asia