Interactive Computational Framework for Visualizing Quantum Decoherence Near Black Holes
Authors/Creators
Description
This project presents an interactive web-based framework to visualize quantum decoherence mechanisms near black holes. Using simplified but physically motivated models—based on Hawking radiation, gravitational tidal effects, and quantum vacuum fluctuations—it demonstrates how coherence decays as a function of distance and mass. Built entirely with HTML, CSS, and JavaScript, the simulation allows real-time adjustment of parameters to explore the interplay between quantum and gravitational phenomena. Designed as an educational tool, it bridges theoretical physics and computational visualization to make advanced concepts accessible to students.
Other
Version 2.0 (December 2025)
Updates:
- Added 6 figures showing computational results
- Included distance dependence plots
- Added channel contribution analysis
- Included coherence decay curves
- Added mass-dependent decoherence rates
- Included 3D parameter space visualization
- Minor text corrections
This version supersedes v1.0 and includes complete graphical analysis.
Files
quantum_decoherence_blackhole.pdf
Files
(2.9 MB)
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md5:a3927f5fed70c9ab28544290c8975f64
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Additional details
Software
- Repository URL
- https://github.com/rishavjha8515-hub/quantum-decohernce-black-hole
- Programming language
- HTML
- Development Status
- Active