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Quantum Physics I
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Related lectures (32)
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Quantum Physics I
Introduces key quantum physics concepts such as commutators, observables, and the Schrödinger equation, emphasizing the importance of diagonalization and energy eigenvalues.
Quantum Mechanics: Time Evolution
Explores time evolution in quantum mechanics, covering compatibility, uncertainty, and evolution properties.
Quantum Physics II: Operator or Density Matrix
Explores operator, density matrix, subsystems, states, and system evolution in quantum physics.
Interaction Point of View
Explores time-dependent perturbation theory in quantum physics from an interaction point of view.
Bargmann States: Overview
Explains Bargmann states, their evolution, basis, and significance in quantum physics.
Quantum Physics I
Explores quantum mechanics, focusing on time evolution, Schrodinger equation, observables, Hamiltonians, spin dynamics, and resonance phenomena.
Heisenberg Picture: Time Evolution and Observables
Explores the Heisenberg picture, emphasizing time evolution and observables in quantum mechanics.
Theory of Open Quantum Systems
Covers the theory of open quantum systems and the dynamics of isolated systems.
Quantum Physics I
Covers the fundamentals of quantum physics, focusing on Hamiltonians, Schrödinger's equation, and magnetic resonance.
Evolution of Density Matrices
Explores the evolution of density matrices in quantum optics, emphasizing super-operators and completely positive maps.
