Basic Information
Quantum Mechanics Postulates. Two State System# Spin, Bloch Sphere, Nuclear Magnetic Resonance (nmr), Spin States Coherent Control. Quantum Metrology# Mri, Atomic Clocks. Quantum Computation# Qubit, Quantum Gates and Algorithms. Quantum Information# Entanglement, Density Matrix. Quantum Communication and Encryption. Physical Implementations# Nmr, Cavity Qed, Josephson Junctions. Light-matter Interaction#weak and Strong Coupling. Jaynce-cumming Model. Quantum Simulators and Quantum Materials. Learning Outcomes# The Course Goal Is to Teach The Infrastructure For Understanding And Developing Quantum Technologies, With Emphasis On Both Proven Applications and Still-developing Technologies. We Will Teach Quantum Information Representation Through Spins and The Bloch Sphere, Together With Coherent Control Methods. The Students Will Acquire The Basic Concepts Behind Nmr, Mri And Atomic Clocks While Reviewing The Research Process That Led to Them. Based On These Building Blocks, The Topics of Quantum Information, Communication, and Computing Will Be Studied. The Students Will Implement an Algorithm Suitable For a Quantum Computer (ibm-q). In Addition. The Main Challenges and Platforms For Hardware Implementeations Will Be Extensively Studied. Including The Cotrol Over of System Using Light-matter Interaction Principles. For That, The Challenges Will Be Studied From The Physical Implementation Through The Way of Encoding The Information and Up To The Basic Quantum Algorithms. Depending On Progress in Class, The Students Will Get a Taste of The Principles Behind Light-matter Interaction and Quantum Materials. at The End of The Course, The Students Will Acquire The Applied Physical Basis For Joining A Research Group That Deals With Quantum Technologies and Will Understand Principles of Design of Quantum Devices.
Faculty: Electrical and Computer Engineering
|Undergraduate Studies
|Graduate Studies
Pre-required courses
114073 - Int. to Quantum Physics For Engineering or 115203 - Quantum Physics 1 or 124400 - Quantum Chemistry 1
Parallel course
104034 - Introduction to Probability H
Related Books
- Magnetic resonance imaging [electronic resource] : physical principles and applications - Kuperman, Vadim.
- Quantum computation and quantum information - Nielsen, Michael A.,
- Quantum computation and quantum information [electronic resource] - Nielsen, Michael A.
- Quantum optics : an introduction - Fox, Mark
- Quantum optics [electronic resource] : an introduction - Fox, Mark