KALUZA, KLEIN, CONFINEMENT, AND NUCLEAR FORCES
198619 pages
Published in:
- Int.J.Theor.Phys. 4 (1986) 327-345
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Abstract: (Springer)
The nonsymmetric Kaluza-Klein and Jordan-Thiry theories are reviewed as interesting propositions of physics in higher dimensions. It is shown how a dielectric model of confinement can be derived from “interference effects” in these theories. It is postulated that the old puzzle of nuclear physics,σ-particles, can be connected to the skewon fieldg[μv] and the scalar field Ψ in the nonsymmetric Jordan-Thiry theory. Similarities are pointed out between the nonsymmetric Jordan-Thiry Lagrangian in the flat space limit and the soliton bag model Lagrangian. Finally the nonsymmetric Jordan-Thiry Lagrangian is proposed as the bosonic part of the strong interaction Lagrangian.- Kaluza-Klein model
- GAUGE FIELD THEORY: GEOMETRICAL
- GAUGE FIELD THEORY: FIBRE BUNDLE
- FIELD THEORY: BIANCHI IDENTITY
- TENSOR: ENERGY-MOMENTUM
- UNIFIED FIELD THEORY
- ELECTROMAGNETIC INTERACTION
- GRAVITATION
- FIELD EQUATIONS: SOLITON
- FIELD THEORY: SCALAR
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