Ultracold fermions in a one-dimensional bipartite optical lattice: Metal-insulator transitions driven by shaking

M. Di Liberto; Daniele Malpetti; George I. Japaridze; C. Morais Smith

doi:https://doi.org/10.1103/physreva.90.023634

doi.org/10.1103/physreva.90.023634

Ultracold fermions in a one-dimensional bipartite optical lattice: Metal-insulator transitions driven by shaking

,

,

..., C. Morais Smith

31

Physical Review A2.90

Volume: 90, Issue: 2

Published: Aug 29, 2014

Abstract

We describe the behavior of a system of fermionic atoms loaded in a bipartite one-dimensional optical lattice that is under the action of an external time-periodic driving force. By using Floquet theory, an effective model with renormalized hopping coefficients is derived. The insulating behavior characterizing the system at half-filling in the absence of driving is dynamically suppressed and for particular values of the driving parameter the...

Paper Fields

Paper Details

Title

Ultracold fermions in a one-dimensional bipartite optical lattice: Metal-insulator transitions driven by shaking

DOI

doi.org/10.1103/physreva.90.023634

Published Date

Aug 29, 2014

Journal

Physical Review A

Volume

90

Issue

2

Citation AnalysisPro

You’ll need to upgrade your plan to Pro

Looking to understand the true influence of a researcher’s work across journals & affiliations?

Scinapse’s Top 10 Citation Journals & Affiliations graph reveals the quality and authenticity of citations received by a paper.
Discover whether citations have been inflated due to self-citations, or if citations include institutional bias.

Learn more

Notes

History