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Lecture
Quantum Perturbation Theory
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Related lectures (29)
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Quantum Eigenfunctions
Covers quantum eigenfunctions and the importance of A and B commuting for the same set of eigenfunctions.
Measurement of Observable Eigenvalues
Covers the measurement of observable eigenvalues and the importance of complete orthonormal sets.
Eigenstate Thermalization Hypothesis
Explores the Eigenstate Thermalization Hypothesis in quantum systems, emphasizing the random matrix theory and the behavior of observables in thermal equilibrium.
Quantum Chemistry: Fundamentals of Quantum Mechanics
Covers the fundamentals of quantum mechanics and the behavior of particles at the quantum level.
Quantum Mechanics: Hilbert Space and Operators
Covers the fundamental concepts of quantum mechanics, focusing on Hilbert spaces and operators.
Quantum Field Theory: Fermions and Grassmann Numbers
Explores quantum field theory, focusing on fermions and Grassmann numbers in the path integral formalism.
Stochastic Models: Absorbing Markov Chains Examples
Covers examples of absorbing Markov chains in discrete time.
Quantum Langevin Equations
Covers the derivation of quantum Langevin equations and input-output formalism in open quantum systems.
Quantum Effective Action
Explores the quantum effective action, its role in perturbation theory, and the organization of correlators in momentum space.
Effective Field Theory: Testing Weak Interactions
Explores effective field theory for testing weak interactions and parity violation through forward-backward asymmetry.
