A Quantum Dipolar Spin Liquid
Strongly Correlated Electrons
2018-04-23 v1 Quantum Gases
Abstract
Quantum spin liquids are a new class of magnetic ground state in which spins are quantum mechanically entangled over macroscopic scales. Motivated by recent advances in the control of polar molecules, we show that dipolar interactions between S=1/2 moments stabilize spin liquids on the triangular and kagome lattices. In the latter case, the moments spontaneously break time-reversal, forming a chiral spin liquid with robust edge modes and emergent semions. We propose a simple route toward synthesizing a dipolar Heisenberg antiferromagnet from lattice-trapped polar molecules using only a single pair of rotational states and a constant electric field.
Cite
@article{arxiv.1510.06403,
title = {A Quantum Dipolar Spin Liquid},
author = {Norman Y. Yao and Michael P. Zaletel and Dan M. Stamper-Kurn and Ashvin Vishwanath},
journal= {arXiv preprint arXiv:1510.06403},
year = {2018}
}
Comments
11 pages, 8 figures