Theoretical Foundations of the General Standard Model: A Unified Framework for Particle Physics and Cosmology
Yue-Liang Wu

TL;DR
This paper introduces the General Standard Model (GSM), a unified theoretical framework that combines particle physics and cosmology within a new gauge symmetry structure, offering insights into gravity, dark matter, dark energy, and early universe inflation.
Contribution
The paper presents the GSM, a novel unification of the Standard Model with cosmology based on first principles and an enlarged gauge symmetry, extending beyond conventional models.
Findings
GSM unifies all four fundamental interactions with cosmological phenomena.
Predicts new gauge forces and scalar interactions beyond the Standard Model.
Provides theoretical insights into dark matter, dark energy, and inflation.
Abstract
We present a comprehensive theoretical analysis of the General Standard Model (GSM), a recently proposed framework that unifies particle physics and cosmology within the Gravitational Quantum Field Theory (GQFT). Constructed from first principles based exclusively on the intrinsic properties of leptons and quarks, the GSM reveals an enlarged gauge symmetry structure, WS(1,3)GS(1)Z, which extends beyond the conventional U(1)SU(2)SU(3) symmetry of the Standard Model. Here, WS(1,3) = SP(1,3)WSP(1,1) emerges as the conformal inhomogeneous spin gauge symmetry. Within GQFT, the GSM provides a consistent unification of the Standard Model of particle physics with cosmological models. It incorporates the four known fundamental interactions, electromagnetic, weak, strong, and gravitational, plus the Higgs…
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