Advancing Quantum Physics Through Computational Simulation
We are a collective of scientists and researchers dedicated to creating innovative quantum physics simulations. Our work includes quantum tunneling in nuclear decay and quantum decoherence visualization, all with scientifically validated Python implementations and interactive GUIs.
Comprehensive quantum physics simulations with full documentation and validated physics
Comprehensive Python simulation of quantum tunneling in alpha decay with interactive GUI and three potential types (square, double, Coulomb). Validated across 70 orders of magnitude.
Advanced simulation of quantum decoherence effects on tunneling and interference using Lindblad master equation and quantum trajectories. Features interactive GUI with real-time visualization of density matrices, purity, entropy, and coherence decay.
UniPhi Collective was founded by a group of passionate scientists and researchers who believe in the power of computational simulation to advance our understanding of quantum physics. Our mission is to create accessible, high-quality simulations that serve both educational and research purposes, with a focus on scientific accuracy and peer-reviewed implementations.
All simulations are peer-reviewed for accuracy and follow established physics principles
Complete source code, documentation, and technical outlines freely available
Designed to help students and researchers understand complex quantum phenomena
We're always interested in collaborating with fellow researchers, students, and quantum physics enthusiasts.