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Distinguishing between non-abelian topological orders in a quantum Hall system

Bivas Dutta, Wenmin Yang, Ron Melcer, Hemanta Kumar Kundu, Moty Heiblum, V. Umansky, Yuval Oreg, Ady Stern, David F. Mross

2021Science76 citationsDOI

Abstract

Quantum Hall states can harbor exotic quantum phases. The nature of these states is reflected in the gapless edge modes owing to “bulk-edge” correspondence. The most studied putative non-abelian state is the spin-polarized filling factor (ν) = 5/2, which permits different topological orders that can be abelian or non-abelian. We developed a method that interfaces the studied quantum state with another state and used it to identify the topological order of ν = 5/2 state. The interface between two half-planes, one hosting the ν = 5/2 state and the other an integer ν = 3 state, supports a fractional ν = 1/2 charge mode and a neutral Majorana mode. The counterpropagating chirality of the Majorana mode, probed by measuring partition noise, is consistent with the particle-hole Pfaffian (PH-Pf) topological order and rules out the anti-Pfaffian order.

Topics & Concepts

Abelian groupQuantum Hall effectQuantumQuantum spin Hall effectTopological orderPhysicsTopology (electrical circuits)Theoretical physicsQuantum mechanicsMathematicsPure mathematicsCombinatoricsElectronQuantum and electron transport phenomenaGraphene research and applicationsAdvancements in Semiconductor Devices and Circuit Design
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