Mechanism for particle fractionalization and universal edge physics in quantum Hall fluids

Author:

Bochniak ArkadiuszORCID,Nussinov Zohar,Seidel AlexanderORCID,Ortiz Gerardo

Abstract

AbstractAdvancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fractional quantum Hall (FQH) fluids is a prerequisite for making progress in the classification of strongly-coupled topological matter. We present a second-quantization framework that reveals an exact fusion mechanism for particle fractionalization in FQH fluids, and uncovers the fundamental structure behind the condensation of non-local operators characterizing topological order in the lowest-Landau-level. We show the first exact analytic computation of the quasielectron Berry connections leading to its fractional charge and exchange statistics, and perform Monte Carlo simulations that numerically confirm the fusion mechanism for quasiparticles. We express the sequence of (bosonic and fermionic) Laughlin second-quantized states, highlighting the lack of local condensation, and present a rigorous constructive subspace bosonization dictionary for the bulk fluid. Finally, we establish universal long-distance behavior of edge excitations by formulating a conjecture based on the DNA, or root state, of the FQH fluid.

Funder

DOE | SC | Basic Energy Sciences

NSF | Directorate for Mathematical & Physical Sciences | Division of Materials Research

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy

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