Magnon edge states in hardcore-Bose-Hubbard model

TL;DR

This paper provides a semiclassical analysis of the hardcore-Bose-Hubbard model on a honeycomb lattice, revealing topological magnon edge states and their agreement with quantum Monte Carlo results, with implications for ultracold atom systems.

Contribution

It introduces a semiclassical approach to understand topological edge states in the hardcore-Bose-Hubbard model, linking bosonic and magnonic properties.

Findings

Identification of magnon edge states in the model

Good agreement between semiclassical analysis and QMC results

Topological properties similar to those of magnons in quantum spin systems

Abstract

Quantum Monte Carlo (QMC) simulation has uncovered nonzero Berry curvature and bosonic edge states in hardcore-Bose-Hubbard model on the gapped honeycomb lattice. The competition between the chemical potential and staggered onsite potential leads to an interesting quantum phase diagram comprising superfluid phase, Mott insulator, and charge density wave insulator. In this paper, we present a semiclassical perspective of this system by mapping to a spin-$1/2$ quantum XY model. We give an explicit analytical origin of the quantum phase diagram, the Berry curvatures, and the edge states using semiclassical approximations. We find very good agreements between the semiclassical analyses and the QMC results. Our results show that the topological properties of hardcore-Bose-Hubbard model are the same as those of magnon in the corresponding quantum spin system. Our results are applicable to systems of ultracold bosonic atoms trapped in honeycomb optical lattices.