dorsal/arxiv
View SchemaRelativistic Geometry and Quantum Electrodynamics
| Authors | Gustavo R. Gonzalez-Martin |
|---|---|
| Categories | |
| ArXiv ID | physics/0009042 |
| URL | https://arxiv.org/abs/physics/0009042 |
Abstract
Excitations of a relativistic geometry are used to represent the theory of quantum electrodynamics. The connection excitations and the frame excitations reduce, respectively, to the electromagnetic field operator and electron field operator. Because of the inherent geometric algebraic structure these operators obey the standard commutation rules of QED. If we work with excitations, we need to use statistical theory when considering the evolution of microscopic subsystems. The use of classical statistics, in particular techniques of irreversible thermodynamics, determine that the probability of absorption or emission of a geometric excitation is a function of the classical energy density. Emission and absorption of geometric excitations imply discrete changes of certain physical variables, but with a probability determined by its wave energy density. Hence, this geometric theory, without contradicting the fundamental aspects of quantum physics, provides a geometric foundation for the theory.
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"abstract": "Excitations of a relativistic geometry are used to represent the theory of\nquantum electrodynamics. The connection excitations and the frame excitations\nreduce, respectively, to the electromagnetic field operator and electron field\noperator. Because of the inherent geometric algebraic structure these operators\nobey the standard commutation rules of QED. If we work with excitations, we\nneed to use statistical theory when considering the evolution of microscopic\nsubsystems. The use of classical statistics, in particular techniques of\nirreversible thermodynamics, determine that the probability of absorption or\nemission of a geometric excitation is a function of the classical energy\ndensity. Emission and absorption of geometric excitations imply discrete\nchanges of certain physical variables, but with a probability determined by its\nwave energy density. Hence, this geometric theory, without contradicting the\nfundamental aspects of quantum physics, provides a geometric foundation for the\ntheory.",
"arxiv_id": "physics/0009042",
"authors": [
"Gustavo R. Gonzalez-Martin"
],
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"title": "Relativistic Geometry and Quantum Electrodynamics",
"url": "https://arxiv.org/abs/physics/0009042"
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