Computational study of quantum light-matter interaction in the Jaynes-Cummings (JC) model. All dynamics are computed from first principles using QuTiP, with no phenomenological approximations
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Updated
Mar 14, 2026 - Python
Computational study of quantum light-matter interaction in the Jaynes-Cummings (JC) model. All dynamics are computed from first principles using QuTiP, with no phenomenological approximations
Quantum Infodynamics: Theory of Motion of Matter-Energy-Information in the Real Space
Library associated with my book on Quantum Mechanics
A fast and head only CG coefficient, Wigner Symbol, d-function, and Talmi-Moshinsky bracket calculation package.
Computational tools for quantum states of light
Driver routines to accompany the library in my book on Quantum Mechanics
Validation-first, in-browser cavity-QED instrument. Rust→WASM quantum core checked element-by-element against QuTiP 5.3 / NumPy goldens. Six tabs: polariton spectra, Wigner/Husimi phase space, angle-resolved reflectivity & transmission heatmaps.
Here, you will find the code written to generate data for the Wigner distribution of states 0 to 4 as well as for the respective position and momentum distributions for a quantum harmonic oscillator.
Research on Pseudo Wigner-Ville Distribution for finite and discrete real sampled signals
Generate phase‑space Fokker–Planck terms from LaTeX‑like Liouvillians in s‑ordered (Wigner/P/Q) form; readable output or tuples, multi‑mode.
First proposal for quantum state tomography of the CMB at 160 GHz using a Josephson parametric amplifier at 20 mK. Reconstructing the Wigner function and measuring photon bunching g(2)(0)=2 of primordial photons. An open research roadmap bridging cQED and observational cosmology. DOI: 10.5281/zenodo.20836974
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