Unified Matrix Node Theory: Theory, Validation & CERN-Level Synthesis

Abstract:
This three-part trilogy introduces the Evans Node Dialect, a novel deterministic lattice framework that unifies quantum mechanics, general relativity, and cosmology.

Part I: Theoretical Framework
Lays out the discrete spacetime node architecture, derives a threshold-driven collapse mechanism (τ) in place of quantum randomness, and demonstrates how gauge fields and curvature emerge from local node interactions.

Part II: Validations, Proofs & Experimental Concordance
Develops analytical toy models and large-N simulations to validate core dynamics; matches LHC cross-sections, neutrino oscillation parameters, and astrophysical rotation curves without ad-hoc tuning; and predicts novel gravitational-wave echoes and evolving dark-energy signatures.

Part III: Refined Unified Matrix Node Theory (END-MNT)
Synthesizes all derivations and empirical tests into a single, falsifiable model; provides a full Lagrangian formulation with higher-order corrections; and outlines a roadmap for near-term experimental tests (CMB anomalies, particle-decay channels, and tabletop quantum-gravity probes).

Together, these manuscripts offer a self-contained, reproducible foundation for a deterministic “matrix node” approach to fundamental physics, complete with clear parameter definitions, open-source simulation code, and a suite of testable predictions.