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Quantum Network and Communication
PHYS 6347
School of Natural Sciences and Mathematics
This course provides an introduction to quantum network and quantum communication. Topics include Einstein-Podolsky-Rosen paradox, Bell inequality and photonic entanglement, single photon source, quantum key distribution, quantum memory, quantum transducers, quantum repeater, quantum state teleportation, entanglement swapping, and distributed quantum computing. A final research project associated with the course is required. 3 credit hours.
Prerequisite: Phys 6346 or Phys 4301 or Phys 6300 or other equivalent undergraduate or graduate Quantum Mechanics courses.
Offering Frequency: Each year
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Quantum Network and Communication
PHYS 6347
School of Natural Sciences and Mathematics
This course provides an introduction to quantum network and quantum communication. Topics include Einstein-Podolsky-Rosen paradox, Bell inequality and photonic entanglement, single photon source, quantum key distribution, quantum memory, quantum transducers, quantum repeater, quantum state teleportation, entanglement swapping, and distributed quantum computing. A final research project associated with the course is required. 3 credit hours.
Prerequisite: Phys 6346 or Phys 4301 or Phys 6300 or other equivalent undergraduate or graduate Quantum Mechanics courses.
Offering Frequency: Each year
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