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Various Physical and Topological Implementations of Quantum Computers Based On Superconductors (superconductor Devices, Transmon, Quantization of Elements in Circuit), Topologies of Molecular Quantum Computers, Molecular Magnets, Quantum Sensors Based On Magnetic Resonance, Nv Centers in Diamond and Their Application to Quantum Computing, Quantum Sensing and Single Photon Sources, Artificial Two-level Systems (dots, Wires and Nanpometric Planes Of Semiconductors), Cold Atom and Ions Magnetometer Atomic Clocks Based On Ions and Atoms, Applications of Quantum Computing in Theoretical Chemistry. Learning Outcomes# at The End of The Course The Student Will Be Able To# 1.know And Describe in Mathematical Terms The Principles of Operation and The Performances of Real Quantum Devices. 2. Know Methods and Processes Of Preparation of Various Materials Used For Quantum Devices. 3. Describe Various Applications of Quantum Computers For The Solution Of Real Problems, Mainly in Quantum Chemistry.

Faculty: Chemistry
|Undergraduate Studies |Graduate Studies

Pre-required courses

116031 - Int. to Quantum Inf. Computation or 127446 - Introduction to Molecular Quantum Tech or 236990 - Introduction to Quantum Information