Quantum Toolbox in Julia
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Updated
Jul 7, 2026 - Julia
Quantum Toolbox in Julia
An efficient Julia framework for Hierarchical Equations of Motion (HEOM) in open quantum systems
A tool to model the bath relaxation dynamics of open quantum systems by Lindblad and Hierarchical Equations of Motion (HEOM) approaches.
MQED-QD: A Python toolkit for computing dyadic Green's functions, dipole–dipole interactions, and open quantum dynamics in layered dielectric media.
Eavesdropper detection & quantum channel benchmarking for QKD- Physical Bridge, Lindblad extension, error diagnostics, Krylov complexity, one-way function property
Computational study of Environment-Assisted Quantum Transport (ENAQT) in open quantum chains. Validated against 1,000 exact HEOM trajectories; enhancement scales as ~2.1N with chain length; structural disorder amplifies rather than destroys ENAQT — universal in 95–100% of random configurations.
Probability-calibrated decision support for personal decisions — Streamlit app on the Omytea quantum substrate
Exact-Lindblad study of the open 1D Bose–Hubbard chain: variance as an intervention-relative control selector for future occupation loss (no Trotter/unravelling/mean-field).
Multilevel design study of EIT sideband cooling of the 87Rb stretched-state pair inside a hollow-core photonic-crystal fiber — no dark-state leak, field-sensitive; honest floors, regression-tested (QuTiP/Lindblad).
Master thesis in Physics
Open-source Python framework for computational quantum many-body physics, open quantum systems, and reproducible scientific computing.
Simulation code and data reproducing "An Open-Quantum-Systems Theory of Quantum-Biological Communication Channels" (IEEE TMBMC).
Quantum computer simulator with information geometry interpretation. Features Lindblad dynamics, spectral zeta functions, and geodesic-spectral duality connecting decoherence to operator spectra.
Master’s thesis code: quantum heat engine simulations (GKLS/Lindblad), reproducible notebooks & plots.
A Julia package implementing algorithms to simulate many-body open quantum systems on two-dimensional lattices.
Multilevel design study of EIT sideband cooling of the 87Rb field-insensitive clock pair inside a hollow-core photonic-crystal fiber — honest floors, regression-tested (QuTiP/Lindblad).
DTQEM v5.0 models quantum entanglement via a two‑qubit state with variable angle θ, Lindblad‑thermal decoherence from Bose–Einstein statistics, and a magnetic field test. Satisfies Bohr complementarity V²+D²≤1. Interactive Python simulation.
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