Aharonov–Bohm interference and statistical phase-jump evolution in fractional quantum Hall states in bilayer graphene
In the fractional quantum Hall effect, quasiparticles are collective excitations that have a
fractional charge and show fractional statistics as they interchange positions. While the …
fractional charge and show fractional statistics as they interchange positions. While the …
[HTML][HTML] Electron wave and quantum optics in graphene
In the last decade, graphene has become an exciting platform for electron optical
experiments, in some aspects superior to conventional two-dimensional electron gases …
experiments, in some aspects superior to conventional two-dimensional electron gases …
Strongly coupled edge states in a graphene quantum Hall interferometer
Electronic interferometers using the chiral, one-dimensional (1D) edge channels of the
quantum Hall effect (QHE) can demonstrate a wealth of fundamental phenomena. The …
quantum Hall effect (QHE) can demonstrate a wealth of fundamental phenomena. The …
Quantum Hall interferometry at finite bias with multiple edge channels
Z Wei, DE Feldman, BI Halperin - arXiv preprint arXiv:2405.05486, 2024 - arxiv.org
In a quantum Hall interferometer, the dependence of the signal on source-drain voltage is
controlled by details of the edge physics, such as the velocities of edge modes and the …
controlled by details of the edge physics, such as the velocities of edge modes and the …
Coherent Bunching of Anyons and their Dissociation in Interference Experiments
B Ghosh, M Labendik, V Umansky, M Heiblum… - arXiv preprint arXiv …, 2024 - arxiv.org
Aharonov-Bohm (AB) interference in fractional quantum Hall states generally reveals the
fractional charge $ e^* $ of their elementary quasiparticles. Indeed, flux periods of …
fractional charge $ e^* $ of their elementary quasiparticles. Indeed, flux periods of …
Coherent Bunching of Anyons and their Dissociation in Interference Experiments
M Heiblum, B Ghosh, M Labendik, V Umansky… - 2024 - researchsquare.com
Aharonov-Bohm (AB) interference in fractional quantum Hall states generally reveals the
fractional charge e* of their elementary quasiparticles. Indeed, flux periods of ΔΦ=(e/e*) Φ 0 …
fractional charge e* of their elementary quasiparticles. Indeed, flux periods of ΔΦ=(e/e*) Φ 0 …