关于空间电子-光子纠缠

arXiv - PHYS - General Physics Pub Date : 2024-04-17 DOI:arxiv-2404.18936

Eitan Kazakevich, Hadar Aharon, Ofer Kfir

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引用次数: 0

摘要

自由电子束及其与光子的量子耦合因其解决的基本问题以及这些粒子所涉及的尖端技术（如显微镜、光谱学和量子计算）而备受关注。这项工作从理论上研究了空间域的电子-光子耦合概念。它们之间的相互作用是通过双路径自由电子（free-e）光束自发发射光子的思想实验来讨论的。我们讨论了将单路径电子-光子耦合天真地扩展到反向分离路径可能产生的逆因果悖论，以及通过双粒子干涉物理学来解决这一问题。电子显微镜中电子和光子的精确空间控制能够操纵它们各自的状态，因此，这种仪器可以利用位置编码的自由电子量子比特进行新的量子传感和量子信息传输。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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On spatial electron-photon entanglement

Free electron beams and their quantum coupling with photons is attracting a rising interest due to the basic questions it addresses and the cutting-edge technology these particles are involved in, such as microscopy, spectroscopy, and quantum computation. This work investigates theoretically the concept of electron-photon coupling in the spatial domain. Their interaction is discussed as a thought experiment of spontaneous photon emission from a dual-path free-electron (free-e) beam. We discuss a retro-causal paradox that may emerge from naively extending perceptions of single-path e-photon coupling to transversely separated paths, and its resolution through the physics of two-particle interference. The precise spatial control of electrons and photons within e-microscopes enables manipulation of their respective states, thus, such instruments can harness position-encoded free-e qubits for novel quantum sensing and the transfer of quantum information.

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arXiv - PHYS - General Physics

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