Implementation of the ESGF-DLMC Framework: Theoretical Evidence for the Djebassi-Vortex Torsion and Isotopic Coherence — Version 1.1.0 (Adjusted

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. Adjustments in this version (1.1.0): Notebooks and scripts have been updated and clarified for reproducibility. Visualization outputs refined for better interpretation and coherence. Minor corrections in documentation to enhance clarity and usability. All results validated against previous version (1.0.0) to ensure consistency.