Perfect nonradiating electromagnetic source and its self-action

IF 2.5 3区 物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Photonics and Nanostructures-Fundamentals and Applications Pub Date : 2023-11-03 DOI:10.1016/j.photonics.2023.101195
Denis Nikolaevich Sob’yanin Денис Николаевич Собьянин
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Abstract

Nonradiating sources and anapoles are curious objects from the physics of invisibility that illuminate subtle concepts of fundamental electrodynamics and have promising applications in nanophotonics. The present work shows that a perfectly conducting sphere with a hidden magnetic field is a simple nonradiating electromagnetic source with mechanical excitation and complete internal confinement of electromagnetic energy. It does not require external electromagnetic excitation and is excited by rotation, which induces internal charges and currents with a self-compensating external radiation. The constructed source acts on itself through Lorentz forces emerging from the interaction of charges and currents with electromagnetic fields inside the sphere and, when having a freedom of rotation about the fixed center, exhibits regular precession like a gyroscope. This self-action reveals an internal electromagnetic activity of the perfect nonradiating source, externally inactive and invisible. Neutron stars, these nanospheres of space, can be such natural nonradiating sources when their magnetic fields are buried.

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完善的无辐射电磁源及其自动性
非辐射源和类似点是来自不可见物理学的奇特物体,它们阐明了基本电动力学的微妙概念,并在纳米光子学中具有很好的应用前景。本文的工作表明,具有隐藏磁场的完全导电球是一种简单的无辐射电磁源,具有机械激励和完全的电磁能量内约束。它不需要外部电磁激励,而是通过旋转激发,通过自补偿的外部辐射诱导内部电荷和电流。构建的源通过洛伦兹力作用于自身,这些力是由球体内的电荷和电流与电磁场相互作用产生的,并且当围绕固定中心旋转时,表现出像陀螺仪一样的规则进动。这种自我作用揭示了一个完美的非辐射源的内部电磁活动,外部不活跃和不可见。中子星,这些空间的纳米球体,当它们的磁场被掩埋时,可以成为这样的天然非辐射源。
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来源期刊
CiteScore
5.00
自引率
3.70%
发文量
77
审稿时长
62 days
期刊介绍: This journal establishes a dedicated channel for physicists, material scientists, chemists, engineers and computer scientists who are interested in photonics and nanostructures, and especially in research related to photonic crystals, photonic band gaps and metamaterials. The Journal sheds light on the latest developments in this growing field of science that will see the emergence of faster telecommunications and ultimately computers that use light instead of electrons to connect components.
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