Related papers: Quantum sensing and metrology with free electrons

Quantum sensing and metrology with free electrons

URL: http://arxiv.org/abs/2505.06124v1
Date: Fri, 09 May 2025 15:27:38 GMT
Title: Quantum sensing and metrology with free electrons
Authors: Cruz I. Velasco, F. Javier García de Abajo,
Abstract summary: We show that we can generate and detect high-number states well beyond those reachable with light alone.<n>We theoretically demonstrate that, by combining electron-beam splitters with two electron-waveguide interactions, the sensitivity to detect optical-phase changes can be enhanced.<n>These results inaugurate a disruptive quantum technology relying on free electrons and their strong interaction with waveguided light.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The quantum properties of matter and radiation can be leveraged to surpass classical limits of sensing and detection. Quantum optics does so by creating and measuring nonclassical light. However, better performance requires higher photon-number states, which are challenging to generate and detect. Here, we combine photons and free electrons to solve the problem of generating and detecting high-number states well beyond those reachable with light alone and further show that an unprecedented level of sensitivity and resolution is gained based on the measurement of free-electron currents after suitably designed electron-light interaction events. Our enabling ingredient is the strong electron-light coupling produced by aloof electron reflection on an optical waveguide, leading to the emission or absorption of a high number of guided photons by every single electron. We theoretically demonstrate that, by combining electron-beam splitters with two electron-waveguide interactions, the sensitivity to detect optical-phase changes can be enhanced tenfold using currently attainable technology. We further show that waveguided NOON states comprising tens of photons can be generated at megahertz rates based on electron post-selection after electron-waveguide interaction. These results inaugurate a disruptive quantum technology relying on free electrons and their strong interaction with waveguided light.

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