Dissipative Quantum Ising model in a cold atomic spin-boson mixture
Abstract
Using cold bosonic atoms with two (hyperfine) ground states, we introduce a spin-boson mixture which allows to implement the quantum Ising model in a tunable dissipative environment. The first specie lies in a deep optical lattice with tightly confining wells and forms a spin array; spin-up/down corresponds to occupation by one/no atom at each site. The second specie forms a superfluid reservoir. Different species are coupled coherently via laser transitions and collisions. Whereas the laser coupling mimics a transverse field for the spins, the coupling to the reservoir sound modes induces a ferromagnetic (Ising) coupling as well as dissipation. This gives rise to an order-disorder quantum phase transition where the effect of dissipation can be studied in a controllable manner.
Keywords
Cite
@article{arxiv.0711.2309,
title = {Dissipative Quantum Ising model in a cold atomic spin-boson mixture},
author = {Peter P. Orth and Ivan Stanic and Karyn Le Hur},
journal= {arXiv preprint arXiv:0711.2309},
year = {2009}
}
Comments
4 pages, 2 figures, 1 table; Title modified and cosmetic changes