This research paper formalizes the Anadihilo () framework, a minimalist and unified alternative to standard field theories that establishes the Absolute Void as the primordial substrate for systemic initialization. The framework introduces a structured Global Systemic Overwrite (GSO) protocol governed by a universal resolution constant, i=0. 0001, derived from the interaction scales of fundamental manifest particles. Key highlights of the paper include: Proton Radius Derivation: Grounding the framework in the Axiom of Normalization (+n=0U), we derive the proton charge radius (Rₚ 0. 8422~fm) from first principles, achieving a 99. 9% correlation with muonic hydrogen experimental data. Unified Volumetric Scaling Law: Introduction of the Z^1/3 law that governs nuclear radii across the periodic table, replacing complex field-theoretic corrections with systemic symmetry factors. Redefinition of Mass: Mass is redefined as Informational Viscosity () —the systemic friction encountered by informational packets during spatial manifestation. Cosmological Implications: The framework reinterprets cosmic expansion and Dark Matter as the progressive de-rendering of manifest information back into the Absolute Void, proposing a finite 79. 2 billion-year universal lifecycle (Anadi-Scale). Hyper-Vortex Mechanics: Establishing a mechanical resolution limit that defines the systemic cut-off for stellar cores, offering a non-singular alternative to classical black hole theory. This work bridges the gap between quantum-scale initialization and cosmic-scale dynamics, suggesting that the physical universe is an emergent informational projection.
Nitin Dagar (Tue,) studied this question.