This research provides a computational resolution to the mathematical singularities found in standard relativistic models of galactic centers. By transitioning from a continuous spacetime manifold to a discrete informational grid characterized by a resolution constant i=10^-4, the paper demonstrates that gravitational potential reaches a finite saturation point, termed "Grid Tension" (F₇ₕ). Utilizing the Anadihilo synchronization logic, the study models supermassive cores as multidimensional informational ruptures or "Hyper-Vortices. " Key highlights include: Singularity Resolution: Eliminating infinite density through discrete grid saturation. M87 Case Study: * Deriving a stable core tension of 1. 06 × 10^-17 m²/s² for the M87* galactic center. Visibility Paradox: Explaining relativistic jet manifestation as an informational phase transition. Dark Matter: Reinterpreting galactic rotation curves through "Grid Drag" and informational viscosity. This work belongs to the Anadihilo 2026 Series and establishes a non-singular framework for future astrophysical modeling and information theory.
Nitin Dagar (Thu,) studied this question.
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