TITLE:
A Model of Grand Unified Theory: Suggested Solution for CP-Violation Using Ideas of Phase Paths
AUTHORS:
Hung-Te Henry Su, Po-Han Lee
KEYWORDS:
BSM, Electroweak, Glueballs, Ising Model, Mass Gap, S. Weinberg
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.10 No.4,
October
25,
2024
ABSTRACT: This study demonstrates that beyond standard model (BSM) cosmic fundamental interactions—weak, strong, and electromagnetic forces—can be unified through a common basis of representation. This unification allows for the derivation of the fine structure constant with running points of α(t) ≈ 1/(136.9038) at high energy scales, based on electroweak interactions. Through the application of the Ising model, the running point of the elementary charge e at high energy scales is determined, and Coulomb’s law is actually derived from the Yukawa potential. Theoretically, based on S. Weinberg’s electroweak interaction theory, this study unifies the strong and electromagnetic forces by representing them with rYuka, and further advances the reconstruction of the
SU
(
3
)
C
×SU
(
1
)
L
×U
(
1
)
EM
framework on the basis of electroweak interaction concepts. In fact, the cosmic fundamental forces can interchange at the mass gap, defined as the Yukawa turning phase at rYuka
≃
1.9404 fm, with the SU(3)Diag structural constant fijk on glueballs calculated, estimating a spectrum mass gap of ∆0 > 0.