Controlling quantum systems with modulated electron beams

Dennis Rätzel; Daniel Hartley; Osip Schwartz; Philipp Haslinger

doi:10.1103/PhysRevResearch.3.023247

Controlling quantum systems with modulated electron beams

Dennis Rätzel, Daniel Hartley, Osip Schwartz, Philipp Haslinger

Department of Physics of Complex Systems

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Coherent control of quantum transitions - indispensable in quantum technology - generally relies on the interaction of quantum systems with electromagnetic radiation. Here, we theoretically demonstrate that the nonradiative electromagnetic near field of a temporally modulated free-space electron beam can be utilized for coherent control of quantum systems. We show that such manipulation can be performed with only classical control over the electron beam itself and is readily realizable with current technology. This approach may provide a pathway toward spectrally selective quantum control with nanoscale spatial resolution, harnessing the small de Broglie wavelength of electrons.

Original language	English
Article number	023247
Journal	PHYSICAL REVIEW RESEARCH
Volume	3
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevResearch.3.023247
State	Published - Jun 2021

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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title = "Controlling quantum systems with modulated electron beams",

abstract = "Coherent control of quantum transitions - indispensable in quantum technology - generally relies on the interaction of quantum systems with electromagnetic radiation. Here, we theoretically demonstrate that the nonradiative electromagnetic near field of a temporally modulated free-space electron beam can be utilized for coherent control of quantum systems. We show that such manipulation can be performed with only classical control over the electron beam itself and is readily realizable with current technology. This approach may provide a pathway toward spectrally selective quantum control with nanoscale spatial resolution, harnessing the small de Broglie wavelength of electrons.",

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AU - Schwartz, Osip

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N2 - Coherent control of quantum transitions - indispensable in quantum technology - generally relies on the interaction of quantum systems with electromagnetic radiation. Here, we theoretically demonstrate that the nonradiative electromagnetic near field of a temporally modulated free-space electron beam can be utilized for coherent control of quantum systems. We show that such manipulation can be performed with only classical control over the electron beam itself and is readily realizable with current technology. This approach may provide a pathway toward spectrally selective quantum control with nanoscale spatial resolution, harnessing the small de Broglie wavelength of electrons.

AB - Coherent control of quantum transitions - indispensable in quantum technology - generally relies on the interaction of quantum systems with electromagnetic radiation. Here, we theoretically demonstrate that the nonradiative electromagnetic near field of a temporally modulated free-space electron beam can be utilized for coherent control of quantum systems. We show that such manipulation can be performed with only classical control over the electron beam itself and is readily realizable with current technology. This approach may provide a pathway toward spectrally selective quantum control with nanoscale spatial resolution, harnessing the small de Broglie wavelength of electrons.

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Controlling quantum systems with modulated electron beams

Abstract

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