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
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© Copyright 2011 to 2024 inclusive, QuTiP developers and contributors. Last updated on Jan 15, 2025.

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