Quantum Geometric Entanglement and Schrödinger Dynamics as Effective Statistics in the MMA–DMF Framework - Total Determinism

This research report presents a rigorous and exhaustive test of the MMA-DMF framework, specifically focusing on its Version 113 iteration. The study synthesizes the model’s theoretical foundations, which postulate a single scalar geometric degree of freedom (ϕ) characterized by a fundamental energy scale M≃100 TeVM \simeq 100 \,\text{TeV}M≃100TeV as the unifying substrate for both the cosmological dark sector and quantum statistical mechanics. We address the critical requirement for a unified “Theory of Everything” candidate by demonstrating that the phenomenological anomalies of the ΛCDM model—specifically the Hubble Tension (H0) and the clustering amplitude S8—are resolved by the same microphysics that imposes the Tsirelson bound in Bell-type experiments. The report details the “Total Determinism Test” (TDT) protocol and the “Tests” suite, formalizing the emergence of the Schrödinger equation from ergodic Langevin dynamics.