On quantum phase crossovers in finite systems
Abstract
In this work we define a formal notion of a quantum phase crossover for certain Bethe ansatz solvable models. The approach we adopt exploits an exact mapping of the spectrum of a many-body integrable system, which admits an exact Bethe ansatz solution, into the quasi-exactly solvable spectrum of a one-body Schr\"odinger operator. Bifurcations of the minima for the potential of the Schr\"odinger operator determine the crossover couplings. By considering the behaviour of particular ground-state correlation functions, these may be identified as quantum phase crossovers in the many-body integrable system with finite particle number. In this approach the existence of the quantum phase crossover is not dependent on the existence of a thermodynamic limit, rendering applications to finite systems feasible. We study two examples of bosonic Hamiltonians which admit second-order crossovers.
Cite
@article{arxiv.quant-ph/0602098,
title = {On quantum phase crossovers in finite systems},
author = {Clare Dunning and Katrina E. Hibberd and Jon Links},
journal= {arXiv preprint arXiv:quant-ph/0602098},
year = {2007}
}
Comments
11 pages, 2 figures. Final version accepted for publication