Implementation of the ESGF-DLMC Framework: Theoretical Evidence for the Djebassi-Vortex Torsion and Isotopic Coherence

This research documents the v2.0 evolution of the Effective Scalar-Gravity Framework (ESGF). We introduce the Dynamic Log-Metric Correction (DLMC) through a 2D spatiotemporal manifold (t × r), demonstrating that galactic rotation curves can be reconciled as emergent topological properties. The core discovery, the "Djebassi-Vortex Effect," utilizes a metric torsion operator (T†) and an isotopic coherence variable (U238) to stabilize the scalar vacuum. This work provides a numerically stable, reproducible alternative to the Dark Matter paradigm, bridging the gap between heavy-actinide stability and galactic kinematics. Key Features: Metric Torsion Analysis: A geometric alternative to particle-based dark matter. Isotopic Coherence: Introduction of U238 as a gravitational stability regulator. Numerical Relativity: Full 2D spatiotemporal manifold simulation (FluxCore v5). Open Science: Fully reproducible Jupyter Notebook and high-resolution manifold mapping.