Codes, notebooks and data for the computation of the self-energy and vertex renormalization spinfoam amplitudes. The algorithm is based on Monte Carlo simulations.

Quantum field theory analysis in curved spacetime geometries. Studies vacuum fluctuations, energy conditions, and field behavior in exotic spacetime configurations for theoretical physics research.

Simulating loop quantum gravity systems, backed with machine learning

PHYS10 poster on algebraic topology for non-holonomic classical mechanics

UQ-Validated Physics-Based Matter Replication and Recycling System with Polymerized-LQG 484x enhancement, 1.1x energy balance, 99.9% fidelity, complete UQ remediation and medical-grade safety protocols

Loop Quantum Gravity midisuperspace quantization for warp drive spacetimes with constraint implementation, coherent states, lattice refinement, exotic matter quantization, and GPU acceleration

I've discuss how our understanding of space and time might will shift, considering ideas from string theory to loop quantum gravity.

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.

Polymer-enhanced fusion simulation framework studying LQG physics integration with tokamak systems. Includes HTS materials modeling, coil optimization, liquid metal divertors, and economic analysis for fusion energy research.

Framework for applying polymer quantization to Grand Unified Theories (GUTs). Extends closed-form SU(2) recoupling to unified gauge groups (SU(5), SO(10), E6), enabling simultaneous enhancement across all charge sectors.

Notebooks and data with practical introduction to numerical computations of spinfoam amplitudes in LQG.

Analysis of Averaged Null Energy Condition violations in Loop Quantum Gravity. Studies energy condition constraints, quantum field behavior, and spacetime energy density bounds in quantum gravitational contexts.

Integration of Loop Quantum Gravity with quantum field theory. Studies matter-geometry coupling, polymer field interactions, and quantum gravitational effects on field dynamics.

Codes and notebooks for the application of Markov Chain Monte Carlo in spinfoams. Computation of boundary observables, correlation functions and entanglement entropy.

Python package for quantum gravity calculations using Loop Quantum Gravity. Features adaptive mesh refinement, 3+1D polymer fields, constraint closure testing, and GPU-accelerated phenomenology generation for quantum spacetime research.

REVOLUTIONARY ZERO EXOTIC ENERGY FTL BREAKTHROUGH: First spacetime metrics requiring 0.00e+00 J exotic energy with 24.2B× sub-classical enhancement. Quantum gravity, warp drives, fusion across 37+ repositories.

Code and notebooks for the computation of the 16-cell spinfoam amplitude, including boundary observables and quantum correlations. The computation is based on MCMC .

Codes and notebooks for the computation of the Black-to-White hole transition amplitude and the crossing time in covariant LQG.

Just my master's thesis on the Loop Quantisation of Gravity. It contains theoretical background to understand the forthcoming Python project on tetrahedra's quantum geometry — see the repo at the link below

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