The geometric content of the electron theory. II: Theory of the electron from start
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Publication:1579075
DOI10.1007/BF03042383zbMath1050.81556OpenAlexW2095486147MaRDI QIDQ1579075
Publication date: 1999
Published in: Advances in Applied Clifford Algebras (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/bf03042383
Electromagnetic interaction; quantum electrodynamics (81V10) Research exposition (monographs, survey articles) pertaining to quantum theory (81-02) Spinor and twistor methods applied to problems in quantum theory (81R25) Electromagnetic theory (general) (78A25)
Related Items (4)
Clifford algebra, Lorentz transformation and unified field theory ⋮ General relativity from START ⋮ A formal definition of carriers ⋮ Space-time geometry and some applications of Clifford algebra in physics
Cites Work
- Multivectorial representation of Lie groups
- Clifford algebra to geometric calculus. A unified language for mathematics and physics
- Generalized Maxwell equations and quantum mechanics. I: Dirac equation for the free electron
- Generalization of the Dirac equation admitting isospin and color symmetries
- New spinor representation of Maxwell's equations. I: Generalities
- Equivalence of Dirac and Maxwell equations and quantum mechanics
- Clifford algebras and their application in mathematical physics. Proceedings of the 4th conference, Aachen, Germany, May 28--31, 1996
- Equations of motion for spinning massive particles over twistor fields
- Clifford algebras and their applications in mathematical physics. Proceedings of the third conference held at Deinze, Belgium, 1993
- The geometric content of the electron theory. I
- Dual space and Clifford algebras
- Spinors as a basis of a geometric superalgebra
- The geometric content of the electron theory. Fock and Iwanenko 1929
- Clifford modules
- Spinors and multivectors as a unified tool for spacetime geometry and for elementary particle physics
- A multivectorial Dirac equation
- Some remarks on clifford algebras
- Null path model for classical interactions
- General form of the equation of motion for a point charge
- Multivectorial generalization of the Cartan map
- Geometric superalgebra and the Dirac equation
- A symmetry of massless fields
- Polynomial Algebras
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