Journal article
Landau Levels of Majorana Fermions in a Spin Liquid
S Rachel, L Fritz, M Vojta
Physical Review Letters | AMER PHYSICAL SOC | Published : 2016
Abstract
Majorana fermions, originally proposed as elementary particles acting as their own antiparticles, can be realized in condensed-matter systems as emergent quasiparticles, a situation often accompanied by topological order. Here we propose a physical system which realizes Landau levels - highly degenerate single-particle states usually resulting from an orbital magnetic field acting on charged particles - for Majorana fermions. This is achieved in a variant of a quantum spin system due to Kitaev which is distorted by triaxial strain. This strained Kitaev model displays a spin-liquid phase with charge-neutral Majorana-fermion excitations whose spectrum corresponds to that of Landau levels, here..
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Awarded by DFG
Awarded by Helmholtz association
Funding Acknowledgements
We thank J. Knolle, Y. M. Lu, T. Meng, M. Neek-Amal, F. Peeters, and F. Zschocke for discussions. This research was supported by the DFG through SFB 1143 and GRK 1621 as well as by the Helmholtz association through VI-521. We thank the Center for Information Services and High Performance Computing (ZIH) at TU Dresden for generous allocation of computer time.