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Entanglement spectroscopy of chiral edge modes in the quantum Hall effect

Benoit Estienne, Jean-Marie Stéphan

2020Physical review. B./Physical review. B33 citationsDOIOpen Access PDF

Abstract

We investigate the entanglement entropy in the integer quantum Hall effect in the presence of an edge, performing an exact calculation directly from the microscopic two-dimensional wave function. The edge contribution is shown to coincide exactly with that of a chiral Dirac fermion, and this correspondence holds for an arbitrary collection of intervals. In particular, for a single interval, the celebrated conformal formula is recovered with left and right central charges $c+\overline{c}=1$. Using Monte Carlo techniques, we establish that this behavior persists for strongly interacting systems such as Laughlin liquids. This illustrates how entanglement entropy is not only capable of detecting the presence of massless degrees of freedom, but also of pinpointing their position in real space, as well as elucidating their nature.

Topics & Concepts

Quantum entanglementPhysicsQuantum Hall effectMassless particleQuantum mechanicsFermionWave functionEntropy (arrow of time)QuantumElectronQuantum many-body systemsQuantum and electron transport phenomenaQuantum Computing Algorithms and Architecture
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