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Overlap of parafermionic zero modes at a finite distance

Schmidt, Thomas L

2022LA Referencia (Red Federada de Repositorios Institucionales de Publicaciones Científicas)10 citationsDOIOpen Access PDF

Abstract

Parafermion bound states (PBSs) are generalizations of Majorana bound states (MBSs) and have been predicted to exist as zero-energy eigenstates in proximitized fractional quantum Hall edge states. Similarly to MBSs, a finite distance between the PBS can split the ground-state degeneracy. However, parafermionic modes have a richer exchange statistics than MBSs, so several interaction terms are allowed by the underlying ${\mathbb{Z}}_{2n}$ symmetry, rendering the effective Hamiltonian governing a pair of PBSs at a finite distance nontrivial. Here, we use a combination of analytical techniques (semiclassical instanton approximation) and numerical techniques (quantum Monte Carlo simulations) to determine the effective coupling Hamiltonian. For this purpose, we go beyond the dilute one-instanton gas approximation and show how finite-size effects can give rise to higher-order parafermion interactions. We find good quantitative agreement between the analytical results and Monte Carlo simulations. We estimate that these finite-size corrections should be observable in some of the recently proposed experiments to observe PBSs in strongly correlated systems.

Topics & Concepts

PhysicsSemiclassical physicsHamiltonian (control theory)ObservableMAJORANAQuantum Monte CarloBound stateQuantum mechanicsMonte Carlo methodGround stateMathematical physicsQuantumFermionMathematicsStatisticsMathematical optimizationQuantum and electron transport phenomenaTopological Materials and PhenomenaPhysics of Superconductivity and Magnetism