This repository contains a complete simulation suite for modeling quantum coherence decay, entropy flow, and energy transformation within the Multifaceted Coherence (MC) and Superluminal Graviton Condensate Vacuum (SGCV) frameworks.
In traditional physics, coherence loss is treated as an irreversible entropy increase. This project investigates a deeper hypothesis:
Coherence does not vanish. It transforms.
Using symbolic tensor fields and 2D lattice simulations, these notebooks visualize and quantify how the observable field
- Gradually loses coherence over time,
- Transfers energy into ghost coherence, vacuum noise, and geometric curvature gain, and
- May allow for recondensation from residual information encoded in spacetime.
Each notebook lives in its subfolder under /notebooks/, with its own README.md:
alpha_entropy_comparison_colab.ipynb: α-driven entropy variationMC_SGCV_Coherence_Simulation.ipynb: primary coherence decay modelPsiStar_Energy_Conversion_Simulation.ipynb: tracks post-decoherence energy flowPhase1→Phase4: modular simulation chain for full pipelineAnimated_Phase_Coherence_Dynamics.ipynb: time evolution of wrapped coherence phase
- MP4 animations
- PNG heatmaps of field evolution
- Tensor data arrays
- Coherence loss metrics and ghost field structure
All simulations are based on the following published or in-preparation models:
- Multifaceted Coherence (MC): directional coherence tensor decay
- SGCV: superluminal graviton condensate vacuum field
- DLSFH: dodecahedral lattice structures (optional)
- DGQG: discrete geometric quantum gravity curvature gain
- Python 3.10+
- NumPy, Matplotlib, SymPy
- Google Colab / Jupyter Notebook
- LaTeX rendering for equations
- Valamontes, A. (2025). Converted ψₛ★ Energy and its Persistence in MC–SGCV Thermodynamic Models.
- Markoulakis, E. (2024). Superluminal Graviton Condensate Vacuum.
- Planck Collaboration (2020), Penrose (2021), Einstein (1935)
This repo serves as:
- A testbed for MC–SGCV thermodynamic theories
- A visual platform for tracking coherence decay and ghost fields
- A simulation generator for publication-ready animations
- A launchpad for deeper energy transfer research in quantum gravity
Copyright © 2019-2025 Galactic Code Developers
MIT License – open access for researchers and theorists across quantum foundations, general relativity, and computational physics.
For questions or contributions, contact: Galactic-Code-Developers