ONE AXIOM : BRIDGES
Robert Spychalski
Abstract
ONE AXIOM BRIDGES: Possibility Selection Principle — Formalization, Collapse, and Born Rule Description: This document provides the formal mathematical bridge between the pure algebraic foundations of the ONE AXIOM project and its physical applications. It presents a rigorous derivation of the fundamental laws of physics starting from a single axiomatic symmetry group: G = S4 x Z2^3. Key Scientific Contributions: Derivation of the Born Rule (p=2): Proves that quantum probability is not a postulate but a theorem. The exponent p=2 is shown to be the unique solution emerging from the OCR-OER adjunction structure. Quantum Collapse as Domain Update: Formalizes "collapse" as a relational update of the Schreier graph domain (Gamma to Gamma_A) rather than a physical process, resolving long-standing paradoxes of "spooky action at a distance". Emergence of Spacetime and Gravity: Demonstrates the construction of 4D spacetime (M4) from group representation theory. Einstein's field equations are derived via two independent, proven paths: Jacobson's thermodynamic approach and Ollivier-Ricci curvature on the Schreier graph. Resolution of the Cosmological Constant Problem: Provides a natural derivation of the cosmological constant Lambda ~ 10^-122 from the "coherence floor" of the universe, eliminating the need for fine-tuning. Bekenstein-Hawking Entropy: Derives the coefficient lambda = 1/4 through triple-verified categorical and structural paths. Methodology: The work employs a "Dual-Track Derivation" methodology, requiring convergence between Ontological [O] (structural) and Epistemological [E] (computational) paths before a result is considered proven. Status: This version marks the completion of the foundational triad of the ONE AXIOM framework (0C, 0A and 0B documents)