Mathematical Foundations of Reflexive Reality: A Unified Information-Geometric Framework for Physics

The Mathematical Foundations of Reflexive Reality (MFRR) establishes a unified framework in which logic, computation, and physics are aspects of one self-defining process. A universe can exist consistently only if its laws are internal, reflexively executed, and energetically self-accounting. The central construct—Transputation (\ (\) ) —realizes lawful internal adjudication of computational degeneracies, producing Perfect Self-Containment (\ (\) ). The forcing of transputation as the unique internal adjudicator under closed-choice conditions is machine-proved in a companion Lean development (zero sorry; Strong Transputational Universality, STU). Seventeen closure theorems connect logic, energy, geometry, thermodynamics, and theory space. The pinnacle structural result is the Two-Layer PSC Theorem: Layer I (hard PSC axioms) uniquely forces gauge group SU (3) SU (2) U (1) with Ngen 3; Layer II (Presentation Invariance/MDL) selects Ngen=3 as the unique PSC-optimal solution. The framework further resolves the black-hole information paradox via reversible transputation (^-1 =I), derives ensemble quantum decoherence as the origin of GKSL dynamics without external environment, and establishes three universal information-energetic laws: (i) superlinear energy amplification (: 1. 01 1. 83) quantifying the quantum-to-classical transition; (ii) the Information Profit Principle (Gen/Drain >1. 13=1+ /2) governing all self-organization; (iii) decoherence as profit-accounting corruption by additive external noise. Part V realizes MFRR constructively via steel-man experiments (TE₂. 1: 11 experiments, 710 runs) deriving gravity, quantization, entanglement, and wormhole formation from information-theoretic constraints alone, and via five advanced theorems (TE₂. 2–TE₂. 6) proving PSC-optimality of SM, nuclear physics, unitarity, , and -machine necessity. . . .