光子隧穿与电磁能量超光速输运的可能性

IF 1.9 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Pramana Pub Date : 2023-02-15 DOI:10.1007/s12043-022-02511-y
Luca Nanni
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引用次数: 0

摘要

由于人们对光似乎以超光速通过隧道传播的实验越来越感兴趣,人们重新审视了由帕萨·戈斯提出的用来解释这些惊人效应的洛伦兹不变量理论。这个理论是建立在Harish-Chandra形式主义的基础上的,它描述了一个无质量自旋为1的玻色子的相对论动力学,比如光子。利用这种形式,给出了电磁能量的波希曼平均传输速度。证明了如果制作波导的介质是非吸收和非色散的,则该速度可以达到超光速。在量子电动力学的框架下验证了这一结果,表明光子在波导内的平均速度是由瞬时超光速的贡献给出的。因此,该理论提出了设计能够以超光速局部传输电磁能量的光学器件的最佳条件,以减轻信号衰减。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On photonic tunnelling and the possibility of superluminal transport of electromagnetic energy

Motivated by the increased interest in experiments in which light appears to propagate by tunnelling at superluminal velocity, the Lorentz invariant theory proposed by Partha Ghose to explain these surprising effects is revisited. This theory is based on the Harish-Chandra formalism, which describes the relativistic dynamics of a massless spin-1 boson, like a photon. By this formalism, the Bohmian average transport velocity of the electromagnetic energy is formulated. It is proved that this velocity can be superluminal if the dielectric making the waveguide is non-absorptive and non-dispersive. This result is validated in the framework of quantum electrodynamics, demonstrating that the average velocity of the photon inside the waveguide is given by the contribution of instantaneous superluminal velocities. This theory, therefore, suggests the optimal conditions for designing the optical devices capable of locally transporting electromagnetic energy at superluminal velocities mitigating signal attenuation.

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来源期刊
Pramana
Pramana 物理-物理:综合
CiteScore
3.60
自引率
7.10%
发文量
206
审稿时长
3 months
期刊介绍: Pramana - Journal of Physics is a monthly research journal in English published by the Indian Academy of Sciences in collaboration with Indian National Science Academy and Indian Physics Association. The journal publishes refereed papers covering current research in Physics, both original contributions - research papers, brief reports or rapid communications - and invited reviews. Pramana also publishes special issues devoted to advances in specific areas of Physics and proceedings of select high quality conferences.
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