QuTiP: Quantum Toolbox in Python
4.4
  • Frontmatter
  • Installation
  • Users Guide
    • Guide Overview
    • Basic Operations on Quantum Objects
    • Manipulating States and Operators
    • Using Tensor Products and Partial Traces
    • Time Evolution and Quantum System Dynamics
      • Dynamics Simulation Results
      • Lindblad Master Equation Solver
      • Monte Carlo Solver
      • Stochastic Solver - Photocurrent
      • Stochastic Solver
      • Monte Carlo Solver
      • Solving Problems with Time-dependent Hamiltonians
      • Bloch-Redfield master equation
      • Floquet Formalism
      • Permutational Invariance
      • Setting Options for the Dynamics Solvers
    • Solving for Steady-State Solutions
    • An Overview of the Eseries Class
    • 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
  • API documentation
  • Change Log
  • Developers
  • Bibliography
QuTiP: Quantum Toolbox in Python
  • Docs »
  • Users Guide »
  • Time Evolution and Quantum System Dynamics

Time Evolution and Quantum System DynamicsΒΆ

  • Dynamics Simulation Results
    • The solver.Result Class
    • Accessing Result Data
    • Saving and Loading Result Objects
  • Lindblad Master Equation Solver
    • Unitary evolution
    • Non-unitary evolution
    • The Lindblad Master equation
  • Monte Carlo Solver
    • Introduction
    • Monte Carlo in QuTiP
  • Stochastic Solver - Photocurrent
    • Closed system
    • Open system
  • Stochastic Solver
    • Homodyne detection
  • Monte Carlo Solver
    • Introduction
    • Monte Carlo in QuTiP
  • Solving Problems with Time-dependent Hamiltonians
    • Methods for Writing Time-Dependent Operators
    • Function Based Time Dependence
    • String Format Method
    • Modeling Non-Analytic and/or Experimental Time-Dependent Parameters using Interpolating Functions
    • Accesing the state from solver
    • Reusing Time-Dependent Hamiltonian Data
    • Running String-Based Time-Dependent Problems using Parfor
  • Bloch-Redfield master equation
    • Introduction
    • Brief Derivation and Definitions
    • Bloch-Redfield master equation in QuTiP
    • Time-dependent Bloch-Redfield Dynamics
  • Floquet Formalism
    • Introduction
    • Floquet theory for unitary evolution
    • Floquet theory for dissipative evolution
  • Permutational Invariance
    • Permutational Invariant Quantum Solver (PIQS)
  • Setting Options for the Dynamics Solvers
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© Copyright 2011 and later, P.D. Nation, J.R. Johansson, A.J.G. Pitchford, C. Granade, A.L. Grimsmo, N. Shammah, S. Ahmed, N. Lambert, and E. Giguere Last updated on Jul 02, 2019.

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