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Neoclassical Theory of Electromagnetic Interactions : A Single Theory for Macroscopic and Microscopic Scales / by Anatoli Babin, Alexander Figotin
(Theoretical and Mathematical Physics. ISSN:18645887)
版 | 1st ed. 2016. |
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出版者 | London : Springer London : Imprint: Springer |
出版年 | 2016 |
大きさ | XXIII, 696 p : online resource |
著者標目 | *Babin, Anatoli author Figotin, Alexander author SpringerLink (Online service) |
件 名 | LCSH:Differential equations LCSH:Mathematical physics LCSH:Electrodynamics LCSH:Elementary particles (Physics) LCSH:Quantum field theory LCSH:Nonlinear Optics FREE:Differential Equations FREE:Mathematical Physics FREE:Mathematical Methods in Physics FREE:Classical Electrodynamics FREE:Elementary Particles, Quantum Field Theory FREE:Nonlinear Optics |
一般注記 | Introduction -- The History of Views on Charges, Currents and the Electromagnetic Field -- The Neoclassical Field Theory of Charged Matter: A Concise Presentation -- Part I. Classical Electromagnetic Theory and Special Relativity -- Part II. Classical Field Theory -- Part III. The Neoclassical Theory of Charges -- Part IV. The Neoclassical Theory of Charges with Spin -- Part V. Mathematical Aspects of the Theory of Distributed Elementary Charges -- Part VI. Appendices In this monograph, the authors present their recently developed theory of electromagnetic interactions. This neoclassical approach extends the classical electromagnetic theory down to atomic scales and allows the explanation of various non-classical phenomena in the same framework. While the classical Maxwell–Lorentz electromagnetism theory succeeds in describing the physical reality at macroscopic scales, it struggles at atomic scales. Here, quantum mechanics traditionally takes over to describe non-classical phenomena such as the hydrogen spectrum and de Broglie waves. By means of modifying the classical theory, the approach presented here is able to consistently explain quantum-mechanical effects, and while similar to quantum mechanics in some respects, this neoclassical theory also differs markedly from it. In particular, the newly developed framework omits probabilistic interpretations of the wave function and features a new fundamental spatial scale which, at the size of the free electron, is much larger than the classical electron radius and is relevant to plasmonics and emission physics. This book will appeal to researchers interested in advanced aspects of electromagnetic theory. Treating the classical approach in detail, including non-relativistic aspects and the Lagrangian framework, and comparing the neoclassical theory with quantum mechanics and the de Broglie–Bohm theory, this work is completely self-contained HTTP:URL=https://doi.org/10.1007/978-1-4471-7284-0 |
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Springer eBooks | 9781447172840 |
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EB00198171 |
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※2017年9月4日以降