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Lecture
Quantum Metrology: Spin-Squeezing and Interferometry
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Squeezed light: Quantum Optomechanics
Explores the generation and properties of squeezed light, improving signal-to-noise ratio for measurements.
Quantum Optics: Squeezed States and Quadrature Representation
Explores squeezed states, quadrature representation, P-function, and Wigner function in quantum optics.
Photon Antibunching in Resonance Fluorescence
Covers photon antibunching in resonance fluorescence and the properties of the P-function.
Quantum Optics I: Wigner Function
Covers the concept of the Wigner function in quantum optics.
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Covers state reconstruction in quantum optics, focusing on the Wigner function and experimental measurements.
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Explores the fundamental concepts of modes and states in quantum optics, covering topics such as optical frequency combs, homodyne detection, and quantum resource like squeezed states.
