Quantized gravitomagnetic charges from WIMT: cosmological consequences
Jes\'us Mart\'in Romero, Mauricio Bellini (IFIMAR - CONICET & UNMdP)
TL;DR
This paper uses WIMT formalism to derive quantized gravitomagnetic charges from a 5D vacuum, exploring their cosmological implications such as monopole decay during inflation.
Contribution
It introduces a novel approach to derive quantized gravitomagnetic charges from a 5D vacuum using WIMT, linking higher-dimensional geometry to cosmological phenomena.
Findings
Quantized charges are induced on a 4D hypersurface from a 5D vacuum.
Gravitomagnetic monopoles decrease exponentially during inflation.
The formalism connects higher-dimensional geometry with observable cosmological effects.
Abstract
Using the formalism of Weitzenb\"ock induced matter theory (WIMT) we calculate the gravito-magnetic charge on a topological string which is induced through a foliation on a five-dimensional (5D) gravito-electromagnetic vacuum defined on a 5D Ricci-flat metric, which produces a symmetry breaking on an axis. We obtain the resonant result that the quantized charges are induced on the effective four-dimensional hypersurface. This quantization describes the behavior of a test gravito-electric charge in the vicinity of a point gravito-magnetic monopole, both geometrically induced from a 5D vacuum. We demonstrate how gravito-magnetic monopoles would decrease exponentially during the inflationary expansion of the universe.
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