PHYS物 208 M6M7M8
This course will introduce basic concepts of quantum information, including quantum entanglement, quantum computation, quantum error correction, and quantum complexity.
Course keywords: quantum information, including quantum entanglement, quantum computation, quantum error correction, and quantum complexity. This course will introduce basic concepts of quantum information, including quantum entanglement, quantum computation, quantum error correction, and quantum complexity. Basic knowledge of quantum physics is required. We will give a general introduction of quantum information at the beginning of the course. After the concept is established, we will focus on (1) The (multi-particle) quantum entanglement (2) Quantum error correction (3) (Topological) quantum computation (4) Physical realization and experimental relevant topics. Grade: 1. 4-6 Homework sets (60%) 2. Final report and presentation (40%) Reference: 1. Quantum Computation and Quantum Information: 10th Anniversary Edition, Michael. A. Neilsen and Isaac L. Chuang, Cambridge University. 2. Online Lecture notes from Prof. John Preskill (Caltech) 3. Quantum Information Meets Quantum Matter From Quantum Entanglement to Topological Phases of Many-Body Systems Authors: Zeng, B., Chen, X., Zhou, D.-L., Wen, X.-G., Springer.
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