English

Topological phases with long-range interactions

Quantum Gases 2016-01-13 v2 Atomic Physics Quantum Physics

Abstract

Topological phases of matter are primarily studied in systems with short-range interactions. In nature, however, non-relativistic quantum systems often exhibit long-range interactions. Under what conditions topological phases survive such interactions, and how they are modified when they do, is largely unknown. By studying the symmetry-protected topological phase of an antiferromagnetic spin-1 chain with 1/rα1/r^{\alpha} interactions, we show that two very different outcomes are possible, depending on whether or not the interactions are frustrated. While non-frustrated long-range interactions can destroy the topological phase for α3\alpha\lesssim3, the topological phase survives frustrated interactions for all α>0\alpha>0. Our conclusions are based on strikingly consistent results from large-scale matrix-product-state simulations and effective-field-theory calculations, and we expect them to hold for more general interacting spin systems. The models we study can be naturally realized in trapped-ion quantum simulators, opening the prospect for experimental investigation of the issues confronted here.

Keywords

Cite

@article{arxiv.1505.03146,
  title  = {Topological phases with long-range interactions},
  author = {Zhe-Xuan Gong and Mohammad F. Maghrebi and Anzi Hu and Michael L. Wall and Michael Foss-Feig and Alexey V. Gorshkov},
  journal= {arXiv preprint arXiv:1505.03146},
  year   = {2016}
}

Comments

Accepted version. See the supplemental information on the APS website

R2 v1 2026-06-22T09:32:59.450Z