Journal article
Magnon Landau Levels and Emergent Supersymmetry in Strained Antiferromagnets
MM Nayga, S Rachel, M Vojta
Physical Review Letters | AMER PHYSICAL SOC | Published : 2019
Abstract
Inhomogeneous strain applied to lattice systems can induce artificial gauge fields for particles moving on this lattice. Here we demonstrate how to engineer a novel state of matter, namely an antiferromagnet with a Landau-level excitation spectrum of magnons. We consider a honeycomb-lattice Heisenberg model and show that triaxial strain leads to equally spaced pseudo-Landau levels at the upper end of the magnon spectrum, with degeneracies characteristic of emergent supersymmetry. We also present a particular strain protocol which induces perfectly quantized magnon Landau levels over the whole bandwidth. We discuss experimental realizations and generalizations.
Grants
Awarded by Australian Research Council
Funding Acknowledgements
We thank D. Arovas, J. Attig, L. Fritz, I. Goethel, A. Rosch, and S. Trebst for discussions as well as collaborations on related work. We acknowledge financial support from the DFG through SFB 1143 (Project No. 247310070) and the Wurzburg-Dresden Cluster of Excellence on Complexity and Topology in Quantum Matter-ct.qmat (EXC 2147, Project No. 39085490) as well as by the IMPRS on Chemistry and Physics of Quantum Materials. S. R. acknowledges the support of an ARC Future Fellowship (FT180100211).