QuTiP: Quantum Toolbox in Python
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Updated
Dec 18, 2024 - Python
QuTiP: Quantum Toolbox in Python
Python implementation of Krotov's method for quantum optimal control
Quantum Toolbox in Julia
The Swiss Army Knife of Applied Quantum Technology (Experimental Tech)
Efficient numerical calculation of generalized filter functions
Simulate realistic quantum control sequences using QuTiP
Python package for analyzing two-qubit gates in the Weyl chamber
Benchmarks for popular Quantum Optics frameworks
📖 Introduction to Quantum Computing and Projects 🚀
Graphical User Interface simulation software for 3D optical lattices formed by mutual interaction between atomic internal structure and external electric field configurations. Master's thesis project at Miami University --Ohio.
Modelling simple atoms and 87Rb in cavity-QED.
Numerical simulation of two-qubit CZ gate implementation with trapped neutral atoms
Implementations of various quantum error correction schemes using QuTiP
The Krylov approximation method provides an efficient approach to perform time-evolutions of quantum states for systems with large-dimensional Hilbert spaces.
A Jupyter notebook reproducing the results of "Nonlinear response of the vacuum Rabi resonance"
Quantum Simulation Framework for N-Level Cavity QED
Open Systems Dynamics for the Group project
Quantum control algorithms for multiple examples based on the package Qutip
Quantum Engineering : Study, design, analysis of Superconducting and Transmon qubits.
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