Users GuideΒΆ
- Guide Overview
- Basic Operations on Quantum Objects
- Manipulating States and Operators
- Using Tensor Products and Partial Traces
- Time Evolution and Quantum System Dynamics
- Introduction
- Dynamics Simulation Results
- Lindblad Master Equation Solver
- Monte Carlo Solver
- Krylov Solver
- Stochastic Solver - Photocurrent
- Stochastic Solver
- Solving Problems with Time-dependent Hamiltonians
- Bloch-Redfield master equation
- Floquet Formalism
- Permutational Invariance
- Setting Options for the Dynamics Solvers
- Hierarchical Equations of Motion
- Solving for Steady-State Solutions
- Two-time correlation functions
- Quantum Optimal Control
- Plotting on the Bloch Sphere
- Visualization of quantum states and processes
- Parallel computation
- Saving QuTiP Objects and Data Sets
- Generating Random Quantum States & Operators
- Modifying Internal QuTiP Settings
- Quantum Information Processing
- Measurement of Quantum Objects