A Unified Gravity-Electroweak Model Based on a Generalized Yang-Mills Framework
Abstract
Gravitational and electroweak interactions can be unified in analogy with the unification in the Weinberg-Salam theory. The Yang-Mills framework is generalized to include space-time translational group T(4), whose generators do not have constant matrix representations. By gauging in flat space-time, we have a new tensor field which universally couples to all particles and anti-particles with the same constant , which has the dimension of length. In this unified model, the T(4) gauge symmetry dictates that all wave equations of fermions, massive bosons and the photon in flat space-time reduce to a Hamilton-Jacobi equation with the same `effective Riemann metric tensor' in the geometric-optics limit. Consequently, the results are consistent with experiments. We demonstrated that the T(4) gravitational gauge field can be quantized in inertial frames.
Cite
@article{arxiv.1106.2121,
title = {A Unified Gravity-Electroweak Model Based on a Generalized Yang-Mills Framework},
author = {Jong-Ping Hsu},
journal= {arXiv preprint arXiv:1106.2121},
year = {2015}
}
Comments
12 pages. To be published in "Modern Physics Letters A"