Harmonic Coherence: A Unified Field Framework for General Relativity, Quantum Mechanics, and the Standard Model
Harmonic Coherence: A Unified Field Framework for General Relativity, Quantum Mechanics, and the Standard Model
This manuscript introduces Harmonic Coherence (HC), a rigorous theoretical framework providing explicit mathematical unification of General Relativity (GR), Quantum Mechanics (QM), and the Standard Model (SM). Key results include novel, explicit mathematical solutions addressing fundamental open problems such as the Yang-Mills Mass Gap, the Riemann Hypothesis, Navier-Stokes regularity, and computational complexity questions (P vs NP). Furthermore, the paper outlines testable predictions, proposing specific experimental frameworks involving optical lattice clocks, gravitational-wave coherence experiments, neutrino oscillation measurements, and coherence-collapse phenomena. This publication is intended to secure immediate academic priority, IP protection, and facilitate scholarly collaboration This document complements DOI:10.5281/zenodo.15288891 and is part of the Harmonic Coherence publication ecosystem hosted at https://legacy-alliance.org.
Quantum Field Theory, Quantum Gravity Unified Field Theory General Relativity Quantum Mechanics Standard Model Yang-Mills Mass Gap Riemann Hypothesis Navier-Stokes Computational Complexity, General Relativity, Phase-Locked Resonance, Unified Mathematical Framework, Temporal Dynamics, Complex Systems, Hanners Theorem, Coherence Tensor, Entropy Minimization, Nested Temporal Layers, Coherence Gradients, Emergent Phenomena, Unified Field Theory, Fundamental Physics, FOS: Mathematics, Thermodynamics, Quantum Gravity Unified Field Theory General Relativity Quantum Mechanics Standard Model Yang-Mills Mass Gap Riemann Hypothesis Navier-Stokes Computational Complexity, Harmonic Coherence, Mathematical Physics, Quantum Mechanics
Quantum Field Theory, Quantum Gravity Unified Field Theory General Relativity Quantum Mechanics Standard Model Yang-Mills Mass Gap Riemann Hypothesis Navier-Stokes Computational Complexity, General Relativity, Phase-Locked Resonance, Unified Mathematical Framework, Temporal Dynamics, Complex Systems, Hanners Theorem, Coherence Tensor, Entropy Minimization, Nested Temporal Layers, Coherence Gradients, Emergent Phenomena, Unified Field Theory, Fundamental Physics, FOS: Mathematics, Thermodynamics, Quantum Gravity Unified Field Theory General Relativity Quantum Mechanics Standard Model Yang-Mills Mass Gap Riemann Hypothesis Navier-Stokes Computational Complexity, Harmonic Coherence, Mathematical Physics, Quantum Mechanics
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