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本文引用的文献

1
The coherence of light is fundamentally tied to the quantum coherence of the emitting particle.光的相干性从根本上与发射粒子的量子相干性相关联。
Sci Adv. 2021 Apr 30;7(18). doi: 10.1126/sciadv.abf8096. Print 2021 Apr.
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Quantum Blobs.量子斑点
Found Phys. 2013;43(4):440-457. doi: 10.1007/s10701-012-9636-x. Epub 2012 Feb 29.
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Direct measurement of the biphoton Wigner function through two-photon interference.通过双光子干涉直接测量双光子 Wigner 函数。
Sci Rep. 2013 Dec 18;3:3530. doi: 10.1038/srep03530.
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Long-lived quantum coherence of two-level spontaneous emission models within structured environments.结构环境下双能级自发辐射模型的长寿命量子相干性。
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Uncertainty relation for photons.光子的不确定性关系。
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6
Hamilton-Jacobi approach to photon wave mechanics: near-field aspects.哈密顿-雅可比方法在光子波动力学中的应用:近场方面。
J Microsc. 2008 Feb;229(Pt 2):331-6. doi: 10.1111/j.1365-2818.2008.01909.x.
7
Measurement of the transverse spatial quantum state of light at the single-photon level.单光子水平下光的横向空间量子态的测量。
Opt Lett. 2005 Dec 15;30(24):3365-7. doi: 10.1364/ol.30.003365.
8
Direct measurement of the spatial Wigner function with area-integrated detection.采用面积积分检测直接测量空间维格纳函数。
Opt Lett. 2003 Aug 1;28(15):1317-9. doi: 10.1364/ol.28.001317.
9
Localized single-photon wave functions in free space.自由空间中的局域单光子波函数。
Phys Rev Lett. 2002 Mar 11;88(10):100402. doi: 10.1103/PhysRevLett.88.100402. Epub 2002 Feb 26.
10
Phase-space structure of the Dirac vacuum.狄拉克真空的相空间结构。
Phys Rev D Part Fields. 1991 Sep 15;44(6):1825-1835. doi: 10.1103/physrevd.44.1825.

关于光子与经典电磁场的关系。

On the photon-classical electromagnetic field relationship.

作者信息

Dragoman Daniela

机构信息

Faculty of Physics, University of Bucharest, Bucharest, Romania.

Academy of Romanian Scientists, Bucharest, Romania.

出版信息

Ann N Y Acad Sci. 2025 Jul;1549(1):11-21. doi: 10.1111/nyas.15378. Epub 2025 Jun 18.

DOI:10.1111/nyas.15378
PMID:40530682
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12309449/
Abstract

This paper discusses how the two ways in which the wavefunction of a free-propagating photon can be introduced-starting from the relativistic energy-momentum relationship or based on the electromagnetic field, in particular on Riemann-Silberstein vectors-are not entirely equivalent since they can lead to different consequences regarding photon localization. In the first case, a phase space localization in regions of the order of Planck's constant, in agreement with the quantum uncertainty principle, could be unambiguously obtained. In the second case, the choice of canonically conjugate variables and Fourier transforms determines if the state is treated quantumly or classically. Both formalisms are, however, compatible.

摘要

本文讨论了引入自由传播光子波函数的两种方式——从相对论能量 - 动量关系出发或基于电磁场,特别是基于黎曼 - 希尔伯斯坦矢量——并不完全等效,因为它们在光子局域化方面可能导致不同的结果。在第一种情况下,可以明确地得到与量子不确定性原理一致的、在普朗克常数量级区域内的相空间局域化。在第二种情况下,正则共轭变量的选择和傅里叶变换决定了该状态是被量子地还是经典地处理。然而,这两种形式体系是兼容的。