Ballistic-to-diffusive transition in engineered counterpropagating quantum Hall channels

Aifei Zhang; Kenji Watanabe; Takashi Taniguchi; Patrice Roche; Carles Altimiras; François D. Parmentier; Olivier Maillet

doi:10.1103/3d25-wpth

論文 Ballistic-to-diffusive transition in engineered counterpropagating quantum Hall channels

Aifei Zhang ; Kenji Watanabe (National Institute for Materials Science) ; Takashi Taniguchi (National Institute for Materials Science) ; Patrice Roche ; Carles Altimiras ; François D. Parmentier ; Olivier Maillet

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Aifei Zhang, Kenji Watanabe, Takashi Taniguchi, Patrice Roche, Carles Altimiras, François D. Parmentier, Olivier Maillet. Ballistic-to-diffusive transition in engineered counterpropagating quantum Hall channels. Physical Review Research. 2025, 7 (4), L042037. https://doi.org/10.1103/3d25-wpth

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(abstract)

Quantum Hall systems featuring counterpropagating edge states can exhibit nonuniversal transport regimes, often dependent on sample size. Here, we experimentally investigate the transport properties of a specially designed quantum Hall device hosting a tunable number of counterpropagating edge states. These edge states are coupled via Landauer reservoirs, enabling charge equilibration over a controllable effective length. Charge transport is governed by the balance between up- and downstream channels: when channel numbers are unequal, a ballistic transport regime emerges; with equal channel numbers, a transition to a critical diffusive regime is observed, marked by a diverging equilibration length. This experimental technique enables simulation of the equilibration dynamics of hole-conjugate states and other exotic quantum Hall phenomena using well-understood quantum Hall states under fully controlled conditions.

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