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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.
Explores quantum theory of laser cooling in optomechanical systems, covering classical picture, Raman scattering, two coupled oscillators, and quantum noise approach.
Delves into the variational method in relativistic quantum field theory without cutoff, emphasizing weakly entangled states and the transition to relativistic continuous matrix product states.
Explores the development of MEMS-based laser projectors, magnetic MEMS mirrors, and quantum sensing solutions for industrial applications and quantum computing.
