Two-particle time-domain interferometry in the Fractional Quantum Hall Effect regime

• URL: http://arxiv.org/abs/2201.09553v2
• Date: Fri, 2 Sep 2022 15:47:57 GMT
• Title: Two-particle time-domain interferometry in the Fractional Quantum Hall Effect regime
• Authors: I. Taktak, M. Kapfer, J. Nath, P. Roulleau, M. Acciai, J. Splettstoesser, I. Farrer, D. A. Ritchie, and D. C. Glattli
• Abstract summary: We consider anyons, the fractionally charged quasi-particles 20 of the Fractional Quantum Hall Effect occurring in two-dimensional electronic conductors in high magnetic fields. Surprisingly, anyons show large quantum coherence when transmitted through the localized states of electronic Fabry-P'erot interferometers, but almost no quantum interference when transmitted via the propagating states of Mach-Zehnder interferometers.
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• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Quasi-particles are elementary excitations of condensed matter quantum phases. Demonstrating that they keep quantum coherence while propagating is a fundamental issue for their manipulation for quantum information tasks. Here, we consider anyons, the fractionally charged quasi-particles 20 of the Fractional Quantum Hall Effect occurring in two-dimensional electronic conductors in high magnetic fields. They obey anyonic statistics, intermediate between fermionic and bosonic. Surprisingly, anyons show large quantum coherence when transmitted through the localized states of electronic Fabry-P\'erot interferometers, but almost no quantum interference when transmitted via the propagating states of Mach-Zehnder interferometers. Here, using a novel interferometric 25 approach, we demonstrate that anyons do keep quantum coherence while propagating. Performing two-particle time-domain interference measurements sensitive to the two-particle Hanbury Brown Twiss phase, we find 53% and 60% visibilities for anyons with charges e/5 and e/3. Our results give a positive message for the challenge of performing controlled quantum coherent braiding of anyons.

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