Prerequisites: ENEE690 or ENEE620; or students who have taken similar courses may contact the department.

Mathematical foundations of quantum optics. Principles of quantum information theory and key applications to quantum information processing. Topics include: quadrature-squeezed light, state space representations of bosonic states, quantum characteristic functions, multimode Gaussian andnon-Gaussian states, quantum state preparation and circuit synthesis,as well as various state-of-the-art applications.