Physics – Atomic Physics
Scientific paper
Jun 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983ncimc...6..239r&link_type=abstract
Nuovo Cimento C, Geophysics and Space Physics, vol. 6C, May-June 1983, p. 239-260. Research supported by the Organization of Pet
Physics
Atomic Physics
21
Electromagnetic Fields, Field Theory (Physics), Interstellar Gas, Particle Acceleration, Quantum Electrodynamics, Zero Point Energy, Cosmic Rays, Harmonic Oscillators, Monopoles, Particle Energy, Quenching (Atomic Physics), Relativistic Particles, Stochastic Processes, X Ray Sources
Scientific paper
If the existence of a universal classical electromagnetic zero-point field (CEMZPF) in the manner of stochastic electrodynamics (SED) is assumed, it can be shown that the predicted growing trend of the translational kinetic energy for monopolar classical particles immersed in the CEMZPF should be quenched when ZPF-induced relativistic oscillations of the center of charge with respect to the center of mass of classical monopolar particles are considered. That no total quenching occurs for polarizable particles (e.g., protons) is consistent with expectations in astrophysics for a highly excited X-ray emitting and very rarefied intergalactic neutral plasma. It is suggested that the concept of a CEMZPF-induced zitterbewegung may be of relevance for making further progress in unsolved problems of SED (e.g., hydrogen atom and anharmonic oscillator).
Cavalleri G.
Rueda Alfonso
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