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Coulomb-mediated antibunching of an electron pair surfing on sound.

Junliang WangHermann EdlbauerAymeric RichardShunsuke OtaWanki ParkJeongmin ShimArne LudwigAndreas Dirk WieckHeung-Sun SimMatias UrdampilletaTristan MeunierTetsuo KoderaNobu-Hisa KanekoHermann SellierXavier WaintalShintaro TakadaChristopher Bäuerle
Published in: Nature nanotechnology (2023)
Electron flying qubits are envisioned as potential information links within a quantum computer, but also promise-like photonic approaches-to serve as self-standing quantum processing units. In contrast to their photonic counterparts, electron-quantum-optics implementations are subject to Coulomb interactions, which provide a direct route to entangle the orbital or spin degree of freedom. However, controlled interaction of flying electrons at the single-particle level has not yet been established experimentally. Here we report antibunching of a pair of single electrons that is synchronously shuttled through a circuit of coupled quantum rails by means of a surface acoustic wave. The in-flight partitioning process exhibits a reciprocal gating effect which allows us to ascribe the observed repulsion predominantly to Coulomb interaction. Our single-shot experiment marks an important milestone on the route to realize a controlled-phase gate for in-flight quantum manipulations.
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