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Lecture
Quantum Optics: Atom-Field Interaction
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Evolution of Density Matrices
Covers the evolution of density matrices in quantum optics, focusing on quantum channels and amplitude damping.
Quantum Mechanics: Density Matrix Formalism
Explains the density matrix formalism in quantum mechanics, covering pure and mixed states, their properties, and evolution over time.
Quantum Principles
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
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Explores quantum information principles, including Larmor precession and quantum states evolution in magnetic fields.
Quantum Optics: Basics and Applications
Covers the quantization of the electromagnetic field, measuring quantum states of light, and the historical development of quantum optics.
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Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
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Covers advancements in photonic links for Rydberg atom arrays in quantum networking.
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Covers the mathematical foundations of quantum mechanics, focusing on operators and their applications in quantum states.
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Delves into quantum entanglement, exploring entangled particles' state, evolution, and measurement.
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Explores classical and quantum mechanics, covering observables, momentum, Hamiltonian, and the Schrödinger equation, as well as quantum chemistry and the Schrödinger's cat experiment.
