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Lecture
Quantum Optics: Basics and Applications
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Related lectures (30)
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Quantum Metrology: Fundamentals and Applications
Explores quantum metrology fundamentals, applications, and technologies like quantum ghost imaging, computing, and key distribution.
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Covers quantum measurement operators, their definitions, applications, and examples in quantum mechanics.
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Delves into early quantum-optomechanics, experimental platforms, and hybrid optomechanical systems, exploring quantum measurement and control.
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Explores high Q optical microcavities, covering topics such as quality-factor, nonlinear properties, and cavity quantum optomechanics.
Quantum Mechanics: GHZM Thought Experiment
Explores the GHZM thought experiment and challenges classical quantum concepts.
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Delves into the statistical aspects of quantum mechanics and its relation to stochastic processes, focusing on quantum optics and Markov jump processes.
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Covers the fundamentals of qubits, including their states, superposition, and operations in quantum mechanics.
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Explores the relationship between quantum mechanics and Markov jump processes in quantum optics and electronics.
