Causal Dynamical Triangulations in C++ using CGAL

This is a collection of notes and discussions at THU Physics about quantum gravity. Main reference: Lectures on Quantum Gravity and Black Holes by Thomas Hartman.

Hamiltonian Gauge Gravity Surveyor (HiGGS). Tools for Hamiltonian constraint, canonical and Dirac-Bergmann analysis of gravity theories with spacetime curvature and torsion.

Bachelor Thesis: An open source code for Causal Dynamical Triangulations without preferred foliation in (1+1)- dimensions | Visit my project website at

Python (version 3.8) source code (with mypy typing support) to generate and plot causal sets as well as use them in numerical calculations.

Simulating loop quantum gravity systems, backed with machine learning

Causal sets

Python (version 3.8) examples (with mypy typing support) for the package in c-minz/Python-causets.

Hamiltonian Gauge Gravity Surveyor (HiGGS). Tools for Hamiltonian constraint, canonical and Dirac-Bergmann analysis of gravity theories with spacetime curvature and torsion.

This board is the open lab notebook for anyone exploring TORUS-Theory’s 14-D χ-β lattice, closure matrix, and observer-state recursion.

This repository consolidates key derivations, simulations, and predictions regarding the Geometrodynamics of Entropy (GdE) theory. GdE proposes a unification of physics based on a (3+3) spacetime, postulating that fundamental forces, particle masses, and quantum phenomena emerge from the geometry of three temporal dimensions.

Causal Dynamical Triangulations using Constrained Delaunay Triangulations in Rust

First complete first-principles derivation of Newton's gravitational constant G from Loop Quantum Gravity with 100% theoretical completeness through resolved vacuum selection problem and comprehensive uncertainty quantification framework

Solutions and miscellaneous notes for "Gauge Fields, Knots and Gravity"

Quantum Gravity coupled with Fermions via Dynamical Triangulations

Revolutionary real-time control system for dynamic warp bubble stability, integrating seven advanced digital twin mathematical frameworks with enhanced uncertainty quantification, achieving 99.9% temporal coherence, 1.2×10¹⁰× metamaterial amplification, and sub-millisecond field transition control with complete causality preservation.

A comprehensive Diophantine characterization and exact kernel catalog of the four-valent Loop Quantum Gravity volume operator, including Python scripts for spectral analysis, figure generation, and automated LaTeX table output.

Planck-scale physics analysis pipeline studying Lorentz symmetry violations. Includes statistical methods, uncertainty quantification, and phenomenological studies for quantum gravity research.

Tautum physics is the physical UFT of UFTs, or "God's Tautology" hence Tautum as with tau_q phase to amplitude vice versa

AK-HDPST resolves BHIP by reinterpreting information loss as a structural typing failure — not as a violation of physics, but as the breakdown of projectability across a categorical boundary.