Collision of two interacting electrons on a mesoscopic beamsplitter: exact solution in the classical limit

Pavlovska, Elina; Silvestrov, P. G.; Recher, Patrik; Barinovs, Ģirts; Kashcheyevs, Vyacheslavs

doi:10.48550/arxiv.2201.13439

Cited by 3 publications

(2 citation statements)

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“…Our work identifies their new role in multiparticle scattering. This role was unnoticed in other theories on two-particle scattering [65] including a theory [66] of capacitively coupled conductors, numerical simulations [57] for colliding electrons, and a classical description [67]. Note that the delay times differ from the traversal time [31,68,69].…”

mentioning

confidence: 98%

Partition of Two Interacting Electrons by a Potential Barrier

Ryu,

Sim

2022

Preprint

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Scattering or tunneling of an electron at a potential barrier is a fundamental quantum effect. Electron-electron interactions often affect the scattering, and understanding of the interaction effect is crucial in detection of various phenomena of electron transport and their application to electron quantum optics. We theoretically study the partition and collision of two interacting hot electrons at a potential barrier in the quantum Hall regime. We predict their kinetic energy change by their Coulomb interaction during the scattering delay time inside the barrier. The energy change results in characteristic deviation of the partition probabilities from the noninteracting case. The derivation includes nonmonotonic dependence of the probabilities on the barrier height, which agrees with recent experiments, and reduction of the fermionic antibunching.

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mentioning

confidence: 98%

Partition of Two Interacting Electrons by a Potential Barrier

Ryu,

Sim

2022

Preprint

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“…Our Letter identifies their new role in multiparticle scattering. This role was unnoticed in theories on two-particle scattering [65] including those for capacitively coupled conductors [66], numerical studies [55] for colliding electrons, and classical descriptions [67]. Note that the delay times differ from the traversal time [31,68,69].…”

mentioning

confidence: 99%

Partition of Two Interacting Electrons by a Potential Barrier

Ryu

Sim

2022

Phys. Rev. Lett.

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Scattering or tunneling of an electron at a potential barrier is a fundamental quantum effect. Electronelectron interactions often affect the scattering, and understanding of the interaction effect is crucial in detection of various phenomena of electron transport and their application to electron quantum optics. We theoretically study the partition and collision of two interacting hot electrons at a potential barrier. We predict their kinetic energy change by their Coulomb interaction during the scattering delay time inside the barrier. The energy change results in characteristic deviation of the partition probabilities from the noninteracting case. The derivation includes nonmonotonic dependence of the probabilities on the barrier height, which qualitatively agrees with recent experiments, and reduction of the fermionic antibunching.

show abstract