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Robustness of quantum Hall interferometry

D. E. Feldman, Bertrand I. Halperin

2022Physical review. B./Physical review. B25 citationsDOIOpen Access PDF

Abstract

Fabry-P\'erot interferometry has emerged as a tool to probe anyon statistics in the quantum Hall effect. The interference phase is interpreted as a combination of a quantized statistical phase and an Aharonov-Bohm phase, proportional to the device area and the charge of the anyons propagating along the device edge. This interpretation faces two challenges. First, the edge states have a finite width and hence the device area is ill-defined. Second, multiple localized anyons may be present in states that overlap with the edge, and it may not be clear whether a second anyon traveling along the edge will go inside or outside the region with a localized anyon and therefore whether or not it should pick up a statistical phase. We show how one may overcome both challenges. In a case where only one chiral edge mode passes through the constrictions defining the interferometer, as when electrons in a constriction are in a Laughlin state with $\ensuremath{\nu}=1/(2n+1)$ or the integer state at $\ensuremath{\nu}=1$, we show that the interference phase can be directly related to the total electron charge contained in the interferometer. This holds for arbitrary electron-electron interactions and holds even if the bulk of the interferometer has a higher electron density than the region of the constrictions. In contrast to the device area or to the number of anyons inside a propagating edge channel, the total charge is well-defined. We examine, at the microscopic level, how the relation between charge and phase is maintained when there is a soft confining potential and disorder near the edge of the interferometer, and we discuss briefly the complications that can occur when multiple chiral modes can pass through the constriction.

Topics & Concepts

PhysicsTopological quantum computerAnyonInterferometryQuantum Hall effectElectronPhase (matter)Quantum mechanicsCharge (physics)Interference (communication)QuantumCondensed matter physicsChannel (broadcasting)TelecommunicationsComputer scienceQuantum and electron transport phenomenaTopological Materials and PhenomenaPhysics of Superconductivity and Magnetism
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