Thermal radiation equilibrium: (nonrelativistic) classical mechanics versus (relativistic) classical electrodynamics
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Publication:6108085
DOI10.1088/1361-6404/ABFFEEzbMath1522.70003arXiv2104.05789MaRDI QIDQ6108085
Publication date: 29 June 2023
Published in: European Journal of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2104.05789
blackbody radiationclassical zero-point radiationPlanck spectrumacceleration-dependent radiation dampingharmonic-oscillator thermal equilibriumRayleigh-Jeans law
Electromagnetic fields in general relativity and gravitational theory (83C50) Electromagnetic theory (general) (78A25) Axiomatics, foundations (70A99)
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Disguised electromagnetic connections in classical electron theory ⋮ Relativity, scaling, and electromagnetic radiation equilibrium for circular orbits
Cites Work
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- Discrete excitation spectrum of a classical harmonic oscillator in zero-point radiation
- Understanding zero-point energy in the context of classical electromagnetism
- Unfamiliar trajectories for a relativistic particle in a Kepler or Coulomb potential
- Thermodynamics of the harmonic oscillator: derivation of the Planck blackbody spectrum from pure thermodynamics
- Random electrodynamics
- Particle Brownian motion due to random classical radiation: superfluid-like behavior in the presence of classical zero-point radiation
- Relativity and radiation balance for the classical hydrogen atom in classical electromagnetic zero-point radiation
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