Gravitation in Unified Scalar Field Theory
Alexander A. Chernitskii
TL;DR
This paper explores a unified scalar field theory where space-time is modeled as a thin film, unifying electromagnetic and gravitational interactions through soliton interactions in a generalized framework.
Contribution
It introduces a novel scalar field model that unifies electromagnetic and gravitational interactions via soliton dynamics in a space-time thin film analogy.
Findings
Metrical interactions correspond to gravity.
Force interactions correspond to electromagnetism.
The model offers potential practical applications.
Abstract
The scalar field of space-time film is considered as unified fundamental field. The field model under consideration is the space-time generalization of the model for a two-dimensional thin film. The force and metrical interactions between solitons are considered. These interactions correspond to the electromagnetic and gravitational interactions respectively. The metrical interaction and its correspondence to the gravitational one are considered in detail. The practical applications of this approach are briefly discussed.
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