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paper

Numerical investigation of gapped edge states in fractional quantum Hall-superconductor heterostructures

arXiv:1707.08579 · doi:10.1038/s41535-018-0085-4

Abstract

Fractional quantum Hall-superconductor heterostructures may provide a platform towards non-abelian topological modes beyond Majoranas. However their quantitative theoretical study remains extremely challenging. We propose and implement a numerical setup for studying edge states of fractional quantum Hall droplets with a superconducting instability. The fully gapped edges carry a topological degree of freedom that can encode quantum information protected against local perturbations. We simulate such a system numerically using exact diagonalization by restricting the calculation to the quasihole-subspace of a (time-reversal symmetric) bilayer fractional quantum Hall system of Laughlin $ν=1/3$ states. We show that the edge ground states are permuted by spin-dependent flux insertion and demonstrate their fractional $6π$ Josephson effect, evidencing their topological nature and the Cooper pairing of fractionalized quasiparticles.

12 pages, 9 figures