This repository contains the complete research package for the MIND (Momentum in Inertial/ Non-Inertial Dynamics) theory, a groundbreaking framework explaining the universal spin evolution of compact astrophysical objects. The theory identifies gravitomagnetic feedback as a fundamental mechanism driving compact objects toward equilibrium spin states characterized by dimensionless parameter Π > 1. Key Findings: Theoretical Framework: Four fundamental equations describing gravitomagnetic feedback between internal asymmetries and rotational dynamics. Numerical Validation: Simulations of 10, 000 neutron stars and 1, 000 black holes demonstrating the mechanism's predictions. Observational Verification: Comparison with 3, 224 pulsars from the ATNF catalog confirms predicted upper limit Π < 200 (maximum observed: 186. 7). Black Hole Spins: Prediction of characteristic spins a ≈ 0. 7 ± 0. 1 independent of mass, matching LIGO/Virgo observations. Empirical Law: Discovery of dissipation scaling η ∝ M^-0. 5B^1. 8 from optimization against observational data. Resolution of Long-standing Puzzles: Natural explanation for absence of sub-millisecond pulsars and clustering of black hole spins. Contents: Paper (PDF): Complete manuscript ready for journal submission (12 pages, 5 figures described). Simulation Code (Python): Fully documented code reproducing all results. Data Files: Simulated neutron star populations (10, 000 objects) Simulated black hole populations (1, 000 objects) Comparison data with ATNF pulsar catalog Equilibrium parameter calculations Analysis Scripts: Tools for reproducing figures and statistical analyses. Visualizations: Interactive plots showing the four evolutionary phases. Methodology: Numerical integration of spin evolution equations (4th-order Runge-Kutta adaptive) Population synthesis with realistic parameter distributions Statistical comparison with observational catalogs Optimization algorithms for parameter fitting Significance: This work presents a unified physical mechanism operating across all compact object classes, replacing ad-hoc explanations with a fundamental theory based on gravitomagnetic coupling. The theory makes specific falsifiable predictions testable with current and future observatories (SKA, LISA, Athena). Reproducibility: All results can be reproduced using the provided code and data. The repository includes detailed installation instructions, example scripts, and parameter files
Alvaro Fabian BRICIO ARZUBIDE (Thu,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: