TL;DR
This paper explores octonionic Lagrangians to model gravitational interactions, proposing a novel framework involving charged massless vector bosons, with potential applications in astrophysical phenomena like jets and supernovae.
Contribution
It introduces a new octonionic formalism for describing gravity using charged vector bosons, linking advanced algebraic structures to astrophysical models.
Findings
Gravitational interaction modeled by charged massless vector bosons.
Proposes octonionic formalism for astrophysical phenomena.
Links algebraic structures to physical models.
Abstract
The physical solutions of Lagrangian of octonionics are researched in the paper. It is shown, the gravitational interaction in Friedmann space and in spherically symmetric space in such model is to be described by pair of charged massless vectorial D-bosons of Minkowski space. It is proposed to use the formalism for the description of jet and supernova.
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Taxonomy
TopicsRelativity and Gravitational Theory · Algebraic and Geometric Analysis · Cosmology and Gravitation Theories