QuTiP: Quantum Toolbox in Python
5.1
Frontmatter
Installation
Users Guide
Guide Overview
Basic Operations on Quantum Objects
Manipulating States and Operators
Using Tensor Products and Partial Traces
Superoperators, Pauli Basis and Channel Contraction
Time Evolution and Quantum System Dynamics
Environments of Open Quantum Systems
Hierarchical Equations of Motion
Introduction
Bosonic Environments
Fermionic Environments
Previous implementations
References
Solving for Steady-State Solutions
Permutational Invariance
Two-time correlation functions
Plotting on the Bloch Sphere
Visualization of quantum states and processes
Saving QuTiP Objects and Data Sets
Generating Random Quantum States & Operators
QuTiP settings
Environment settings
Modifying Internal QuTiP Settings
Measurement of Quantum Objects
Quantum Optimal Control
API documentation
Change Log
Developers
Development Documentation
Bibliography
Copyright and Licensing
QuTiP: Quantum Toolbox in Python
Users Guide
Hierarchical Equations of Motion
Hierarchical Equations of Motion
Introduction
Bosonic Environments
Describing the system and bath
System and bath dynamics
Steady state
Matsubara Terminator
Matsubara expansion coefficients
Multiple baths
Fermionic Environments
Describing the system and bath
System and bath dynamics
Determining currents
Steady state currents
Padé expansion coefficients
Previous implementations
HSolverDL
BoFiN-HEOM
Current implementation
References