Master equation

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Related lectures (12)

Lindblad equation

Covers the derivation of the Lindblad equation and the evolution of quantum gases.

Lindblad equation

Covers the interpretation of the Lindblad equation and its unitary part in quantum gases.

Quantum Trajectories: Stochastic Schrödinger Equation

Covers the Stochastic Schrödinger equation, Lindblad equation, and Homodyning.

Sideband Cooling

Explores sideband cooling in quantum optics, covering motional sidebands and the cooling cycle.

Quantum Trajectories: Stochastic Schrödinger Equation

Covers the Stochastic Schrödinger equation, Lindblad equation, Monte-Carlo w.f. algorithm, homodyning, and quantum state diffusion.

Effective Dynamics for Stochastic Differential Equations

Explores effective dynamics for non-reversible stochastic differential equations, covering molecular dynamics, bottlenecks, coarse-graining, and free-energy connection.

Quantum Transport in Thermal Machines

Explores charge and heat quantum transport in thermal machines, emphasizing theoretical tools and applications in mesoscopic physics.

Stochastic numerical methods for many-body quantum systems

Explores stochastic methods for quantum systems, including exact diagonalization, variational methods, neural networks, and machine learning.

Theory of Open Quantum Systems

Covers trace-preserving maps, master equations, and Lindblad operators in the theory of open quantum systems.

Statistical Physics IV: Part II

Delves into advanced statistical physics concepts, exploring complex systems behavior and dissipative dynamics.

Lindblad Equation

Explores the Lindblad equation and the Markov approximation in quantum optics.

Generalized Langevin Equations

Explores Generalized Langevin Equations and their computational implications in molecular dynamics simulations, emphasizing the impact of noise details on particle trajectories.

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