I would like to advertise the course CS 4900/5900 "Quantum Information Processing Systems" (class numbers 12498/12499). The only prerequisite is linear algebra & complex numbers (a quick review will be provided), you do NOT need to know quantum mechanics. These are the topics we hope to cover in the course: * Qubits, gates, superposition, entanglement, statevectors, density matrices, phase kickback * Hands-on programming in Jupyter notebooks: Qiskit (Python), noise models, error models * Algorithms: Deutsch-Jozsa, Bernstein-Vazirani, Simon's, Grover's, phase estimation, Shor's * Implementation: photonic quantum computing using polarization & beamsplitters, with an overview of NV- centers in diamond, optical GKP states, superconducting, trapped ions, silicon qubits, neutral/Rydberg atoms * Simulation & Annealing: solving maximal independent sets using neutral atoms, overview of quadratic unconstrained binary optimization, variational quantum eigensolvers * Cryptography: teleportation, QKD using BB84, E91 * Communication: spin-photon interface, quantum error correction, repeaters * Recent experiments: Micius satellite-based QKD, various entanglement and teleportation experiments * overview of quantum sensing Please let me know if you have any questions ( chenji at ohio.edu <mailto: chenji at ohio.edu >) -------------- next part -------------- An HTML attachment was scrubbed... URL: < http://listserv.ohio.edu/pipermail/eecs_phd/attachments/20230803/68c388a8/attachment.html >
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