UnifiedCFieldTheoryᵥ4NonSingularCyclicFormalism

This paper presents the fourth iteration of the Unified C-Field Theory, proposing a rigorous, singular, and cyclic formalism that bridges the gap between General Relativity and subatomic quantum mechanics. By introducing a unified field equations framework, the model provides a new perspective on the transition from macro-scale gravitational effects to discrete quantization. The theory posits a cyclic evolutionary model for cosmic structures, addressing current anomalies in the standard cosmological model. Detailed mathematical derivations demonstrate the coupling between the C-field and existing Einsteinian field equations, offering a potential solution to the singularity problem and a consistent pathway toward grand unification. We present a complete, non-singular framework based on the C-field tensor and a newly defined fundamental constant. This formalism bridges the gap between General Relativity and quantum mechanics by eliminating singularities within black holes and at the Big Bang event. The model identifies the geometric foundation of Dark Matter as field tension and provides consistent solutions for Navier-Stokes regularity and the quantization of particle masses, from the Higgs boson to neutrinos. Empirical validation is derived from NANOGrav gravitational wave background data and recent James Webb Space Telescope (JWST) observations of early galaxy formation, which align with the theory’s predictions of a cyclic, non-singular evolution of the universe.