PHYS物 313 T3T4Tn
量子資訊科學是跨物理、數學、資訊科學及工程學的新興領域,近年來發展極為快速.。在此一課程,讓物理系的學生有機會 能認識量子資訊的背景及相關知識。課程內容的設計將從量子物理的角度出發,近一步認識量子計算及量子通訊的原理,並且 介紹不同量子資訊硬體平台的實驗發展及背景知識。內容同時注重「量子資訊原理」與「量子硬體的物理實現」。
Course keywords: Quantum information, Qubit, Quantum Computation, Quantum Algorithm, Quantum Teleportation, Quantum Error Correction, Superconducting Qubit, Trapped Ion. 課程說明及進度(Course Description & Syllabus): 本課程將會分成二部分,第一部分介紹量子資訊的原理,第二部分介紹各種量子資訊硬體的發展: Part I: Principle of Quantum information 1. Foundational framework: qubits and matrix representation 2. Circuits model of computation and quantum algorithm 3. Quantum entanglement and quantum teleportation 4. Quantum error correction Part II: Physical Implementations of quantum information hardware 1. Superconducting qubit 2. Trap ion 3. Other quantum hardware systems 指定用書(Textbooks): This course will use our own notes (which combined from context of references) to be the main materials. 本課程會將參考書籍內容編寫成程度合適的講義,作為主要教材。 參考書籍(References): 1. A First Introduction to Quantum Computing and Information, Bernard Zygelman, Springer (2018). (Main reference book) 2. Quantum Computing: An Applied Approach, Jack D. Hidary, Springer (2019). 3. Quantum Information, Stephen M. Barnett, Oxford(2009). 4. Quantum Information: From Foundations to Quantum Technology Applications, Dagmar Bruß and Gerd Leuchs, Wiley-VCH(2019). 5. Quantum Computation and Quantum Information, Nelson and Chuang, Cambridge University Press(2010) 成績考核(Evaluation) 作業 Homework 60% 期末書面報告 Final written report 40% (Final report will be a written report that is finished by a group of 2-3 people) 期末報告將以2~3人為一小組合作形式完成一份書面報告。
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