Classical zero-point radiation and relativity: the problem of atomic collapse revisited
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Publication:1689804
DOI10.1007/S10701-016-0008-9zbMath1380.81488arXiv1511.02083OpenAlexW2200759018MaRDI QIDQ1689804
Publication date: 17 January 2018
Published in: Foundations of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1511.02083
History of mathematics in the 20th century (01A60) History of quantum theory (81-03) General and philosophical questions in quantum theory (81P05) Two-body problems (70F05) Atomic physics (81V45) Motion of charged particles (78A35)
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- The blackbody radiation spectrum follows from zero-point radiation and the structure of relativistic spacetime in classical physics
- Simulation of the hydrogen ground state in stochastic electrodynamics. II: Inclusion of relativistic corrections
- Quantum mechanical ground state of hydrogen obtained from classical electrodynamics
- Blackbody radiation and the scaling symmetry of relativistic classical electron theory with classical electromagnetic zero-point radiation
- Unfamiliar trajectories for a relativistic particle in a Kepler or Coulomb potential
- Scaling symmetries of scatterers of classical zero-point radiation
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