Integrated Python+hi_CLASS/MontePython framework implementing the Informational Graph Dynamics model for emergent locality and quantum-like behavior.

Differentiable model selection for quantum theory

A novel theoretical physics framework that derives spacetime from quantum information.

Founded by the ψ_total collective: A living archive of Recursive Harmonics.

Informational interpretation of quantum mechanics, gravity, and cosmology based on coherence-driven compression. Includes a falsifiable adaptive-interference protocol.

Geometric resolution of Bell's theorem restoring Einstein locality via CPT-Siamese dual universes. Entanglement is reinterpreted as global phase synchronization across time-reversed sheets. Includes analytic derivation of CHSH correlations (22​) and empirical evidence from FRB anisotropies aligned with a 'Siamese Axis'.

Observer Frequency Structure Interpretation – interpretative framework on the quantum measurement problem.

Gravitational decoherence rate depends on measurement basis. Testable prediction from Diosi-Penrose model.

Quantum mechanics thought experiment

Geometric resolution of Bell nonlocality in CPT-Siamese Universes. Entanglement acts as global phase synchronization across dual sheets. Includes analytic derivation of CHSH correlations and observational evidence from FRB anisotropies aligned with the Siamese Axis, unifying QM and cosmology.

Multiple codes exploring the emergence of quantum postulates in a new pilot wave model

A foundational theory redefining "existence" as quantizable via constructive logic. Applicable to AI cognition, encryption, quantum memory, and beyond. 構成的論理により「存在」を量子化可能な単位として再定義。AI認知・暗号・量子記憶など幅広い応用を想定した基礎理論です。

This repository contains the code accompanying my thesis on decoherence and preferred tensor product structures in multi-qubit systems. The code explores how decoherence influences the emergence of preferred tensor product structures, relevant for understanding quantum information processing and quantum foundations.