Simulate quantum physics systems
qutipskillsetup L3★27,559
K-Dense-AI/scientific-agent-skills ↗What it does
Simulate open quantum systems with Lindblad dynamics
Best for
Studying master equations, decoherence, cavity QED, quantum optics where unitary evolution is insufficient.
Inputs
- · Hamiltonian H
- · Initial state psi0
- · Collapse operators c_ops
- · Time list tlist
Outputs
- · Expectation values
- · Steady states
- · Correlation functions
- · Bloch sphere visualization
Requires
- · numpy
- · scipy (implicit)
- · matplotlib (visualization)
Preconditions
qutip installed; quantum system parameters known; Hilbert space dimension reasonable
Failure modes
- · Hilbert space too small for high-dimensional systems
- · Collapse operators not properly normalized
- · Long-time evolution numerically unstable
Trust signals
- · Multiple solver backends (sesolve/mesolve/mcsolve)
- · Floquet theory and HEOM support
- · Comprehensive analysis library (entropy, fidelity, concurrence)