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An empirical and classical approach for nonperturbative, high velocity, quantum mechanics
While conventional approaches to high velocity quantum mechanics (such as QED) have been very successful when a perturbation approach can be applied, those conventional approaches have been found lacking when applied to other physical phenomena such as the strong force. For this reason,
an alternative approach is desired. By beginning with some simple empirical observations, and making a single assumption concerning the existence of an underlying wave, formulas are derived for a nonperturbative, high velocity, quantum mechanics. It is shown that the new formulas reduce to
the conventional formulas in the low velocity limit.
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Keywords: Dirac Equation; Klein-Gordon Equation; Quantum Mechanics; Relativity; Schrödinger Equation
Document Type: Research Article
Publication date: September 15, 2017
- Physics Essays has been established as an international journal dedicated to theoretical and experimental aspects of fundamental problems in Physics and, generally, to the advancement of basic knowledge of Physics. The Journal's mandate is to publish rigorous and methodological examinations of past, current, and advanced concepts, methods and results in physics research. Physics Essays dedicates itself to the publication of stimulating exploratory, and original papers in a variety of physics disciplines, such as spectroscopy, quantum mechanics, particle physics, electromagnetic theory, astrophysics, space physics, mathematical methods in physics, plasma physics, philosophical aspects of physics, chemical physics, and relativity.
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