Simulating loop quantum gravity systems, backed with machine learning
Codes, notebooks and data for the computation of the self-energy and vertex renormalization spinfoam amplitudes. The algorithm is based on Monte Carlo simulations.
Research-stage results; see docs/ for validation, benchmarks, and uncertainty notes.
PHYS10 poster on algebraic topology for non-holonomic classical mechanics
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Loop Quantum Gravity midisuperspace quantization for warp drive spacetimes with constraint implementation, coherent states, lattice refinement, exotic matter quantization, and GPU acceleration
# LQG Polymer Field Generator
# LQG First-Principles Gravitational Constant (Research-stage)
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# LQG FTL Metric Engineering
# LQG-Enhanced Warp Bubble QFT
# LQG First-Principles Fine-Structure Constant (Research-stage)
Notebooks and data with practical introduction to numerical computations of spinfoam amplitudes in LQG.
Research-stage results; see docs/ for validation, benchmarks, and uncertainty notes.
I've discuss how our understanding of space and time might will shift, considering ideas from string theory to loop quantum gravity.
# LQG Volume Operator Spectral Analysis
Codes and notebooks for the application of Markov Chain Monte Carlo in spinfoams. Computation of boundary observables, correlation functions and entanglement entropy.
# UNIFIED_QG: Unified Quantum Gravity Pipeline
Codes and notebooks for the computation of the Black-to-White hole transition amplitude and the crossing time in covariant LQG.
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