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- Title
SPIN CONNECTION RESONANCE IN GRAVITATIONAL GENERAL RELATIVITY.
- Authors
Evans, Myron W.
- Abstract
The equations of gravitational general relativity are developed with Cartan geometry using the second Cartan structure equation and the second Bianchi identity. These two equations combined result in a second order differential equation with resonant solutions. At resonance the force due to gravity is greatly amplified. When expressed in vector notation, one of the equations obtained from the Cartan geometry reduces to the Newton inverse square law. It is shown that the latter is always valid in the off resonance condition, but at resonance, the force due to gravity is greatly amplified even in the Newtonian limit. This is a direct consequence of Cartan geometry. The latter reduces to Riemann geometry when the Cartan torsion vanishes and when the spin connection becomes equivalent to the Christoffel connection.
- Subjects
EQUATIONS; GRAVITY; GEOMETRY; BIANCHI groups; INVERSE problems; RIEMANNIAN geometry
- Publication
Acta Physica Polonica B, 2007, Vol 38, Issue 6, p2211
- ISSN
0587-4254
- Publication type
Article