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“量子计算”的版本间的差异
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(创建页面,内容为“目前由翁文康担任教学工作,主要参考书是Nielsen与Chuang的''Quantum Computation and Quantum Information'',教材是自编讲义,主要内容是…”) |
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− | + | 量子计算课程目前由[[翁文康]]副教授担任教学工作。课程主要参考书是Nielsen与Chuang的''Quantum Computation and Quantum Information'',教材是自编讲义。课程主要内容是量子逻辑门与量子线路、简单的量子算法、量子模拟以及经典与量子计算的复杂性。 | |
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+ | {{infobox | ||
+ | |inner-title='''量子计算''' | ||
+ | |table= | ||
+ | {{{!}} class="wikitable" | ||
+ | {{!}}- | ||
+ | {{!}} 课程名称 {{!}}{{!}} 量子计算 | ||
+ | {{!}}- | ||
+ | {{!}} 英文名称 {{!}}{{!}} Quantum Computation | ||
+ | {{!}}- | ||
+ | {{!}} 开课[[院系]] {{!}}{{!}} [[物理系]] | ||
+ | {{!}}- | ||
+ | {{!}} 课程代码 {{!}}{{!}} PHY442 | ||
+ | {{!}}- | ||
+ | {{!}} 学分 {{!}}{{!}} 3 | ||
+ | {{!}}- | ||
+ | {{!}} 总学时 {{!}}{{!}} 48 | ||
+ | {{!}}- | ||
+ | {{!}} 课程性质 {{!}}{{!}} 专业选修课 | ||
+ | {{!}}- | ||
+ | {{!}} 先修条件 {{!}}{{!}} [量子力学]I | ||
+ | {{!}}- | ||
+ | {{!}} 课程介绍 {{!}}{{!}} 理论课,3学分,4学时/每周。先修课程:[[量子力学]]I(PHY206-15)。[[量子信息]]科学为近代物理最前沿和最有发展潜力的学科之一,本课程为研究生及本科高年级学生讲授量子信息科学的基本概念,主要集中讲授量子计算,包括量子门、量子线路、量子隐形传态、量子模拟、量子计算复杂性等。 | ||
+ | {{!}}- | ||
+ | {{!}} 英文介绍 {{!}}{{!}} Lecture, 3 credits, 4 hours per week. Pre-requesites:quantum mechanics I(PHY206-15). Quantum information science represents one of the most advanced subjects that admits a strong potential for further development. This course aims to prepare graduate and senior undergraduate students for a foundational understanding on the research area of quantum information science, with a main focus on quantum computation, including quantum gates, quantum circuits, quantum teleportation, quantum simulation, quantum computational complexity, etc. | ||
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+ | }} |
2019年6月21日 (五) 21:11的版本
量子计算课程目前由翁文康副教授担任教学工作。课程主要参考书是Nielsen与Chuang的Quantum Computation and Quantum Information,教材是自编讲义。课程主要内容是量子逻辑门与量子线路、简单的量子算法、量子模拟以及经典与量子计算的复杂性。
量子计算
课程名称 | 量子计算 |
英文名称 | Quantum Computation |
开课院系 | 物理系 |
课程代码 | PHY442 |
学分 | 3 |
总学时 | 48 |
课程性质 | 专业选修课 |
先修条件 | [量子力学]I |
课程介绍 | 理论课,3学分,4学时/每周。先修课程:量子力学I(PHY206-15)。量子信息科学为近代物理最前沿和最有发展潜力的学科之一,本课程为研究生及本科高年级学生讲授量子信息科学的基本概念,主要集中讲授量子计算,包括量子门、量子线路、量子隐形传态、量子模拟、量子计算复杂性等。 |
英文介绍 | Lecture, 3 credits, 4 hours per week. Pre-requesites:quantum mechanics I(PHY206-15). Quantum information science represents one of the most advanced subjects that admits a strong potential for further development. This course aims to prepare graduate and senior undergraduate students for a foundational understanding on the research area of quantum information science, with a main focus on quantum computation, including quantum gates, quantum circuits, quantum teleportation, quantum simulation, quantum computational complexity, etc. |