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Classical electrodynamic systems interacting with classical electromagnetic random radiation
Foundations of Physics 20 (2):225-240 (1990)
Abstract
In the past, a few researchers have presented arguments indicating that a statistical equilibrium state of classical charged particles necessarily demands the existence of a temperature-independent, incident classical electromagnetic random radiation. Indeed, when classical electromagnetic zero-point radiation is included in the analysis of problems with macroscopic boundaries, or in the analysis of charged particles in linear force fields, then good agreement with nature is obtained. In general, however, this agreement has not been found to hold for charged particles bound in nonlinear force fields. The point is raised here that this disagreement arising for nonlinear force fields may be a premature conclusion on this classical theory for describing atomic systems, because past calculations have not directed strict attention to electromagnetic interactions between charges. This point is illustrated here by examining the classical hydrogen atom and showing that this problem has still not been adequately solvedLinks
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Citations of this work
Thermodynamics of Blackbody Radiation Via Classical Physics for Arbitrarily Shaped Cavities with Perfectly Conducting Walls.Daniel C. Cole - 2000 - Foundations of Physics 30 (11):1849-1867.
References found in this work
Scaling symmetry and thermodynamic equilibrium for classical electromagnetic radiation.Timothy H. Boyer - 1989 - Foundations of Physics 19 (11):1371-1383.
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