Induction of gravity and strong interactions on non-associative algebra

TL;DR

This paper develops a novel theoretical framework linking non-associative octonion algebra to gravity and strong interactions, deriving Einstein's equations and explaining phenomena like chirality and quark confinement.

Contribution

It introduces a new model of gravity and strong interactions based on non-associative octonion algebra, extending general relativity and standard model concepts.

Findings

Derives Einstein equations with gravity constant from non-associativity

Models strong interactions using octonion matrix representation

Explains quark confinement as a spinor solution inside a black hole

Abstract

In this work we take view on space-time as dual representation of fields on manifold. Given we accept such view, the space of functions in operator representation becomes probability amplitudes f(x) of a particle. Since the probabilistic interpretation of f(x) module follows from f(x) and f*(x) duality, the problem of finding representation of wave function reduces to Frobenius theorem for division algebras. We then construct the gravity model and the model of strong interactions as a logical implication of the extension of fields interaction algebra to non-associative algebra of octonions. The application of Penrouse approach in spinor representation of space-time combined with the proposed approach further leads us to chirality of interactions and absence of right neutrino and left spinors in singleton state. We also show the obtained model is consistent with general theory of relativity and SU(3) for distances larger than Planck length. The obtained model also contains the generalization of general theory of relativity to the model with torsion given the chirality of the field. Importantly, the application of our approach gives us Einstein equation with gravity constant equal to squared Planck mass as consequence of non-associativity of interactions fields. We construct strong interaction model based on matrix representation of octonion algebra with special multiplication rule. The strong interaction is induced by vector fields of octonion algebra with constant gravity force, which is in turn induced by a pair of charged $W$ vector bosons from standard theory of weak interactions. The problem of quark confinement is presented as a spinor solution inside "black hole".