量子计算与量子几何位相 Quantum Computation and Geometric Quantum Phase期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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量子计算与量子几何位相

引用本文：	易学华,温慧强,易照曌.量子计算与量子几何位相[J].嘉应学院学报,2009,27(6):33-36.

作者姓名：	易学华温慧强易照曌

作者单位：	1. 嘉应学院,物理与光信息科技学院,广东,梅州,514015 2. 华中科技大学,建筑与城市规划学院,武汉,430074

摘要：	从量子力学原理出发,说明量子计算是量子计算机的理论基础。量子计算机拥有比经典计算机更为强大的计算能力。而实现量子计算机的关键之一是使用量子几何相位来实现高保真度的普适量子逻辑门。先简要介绍量子计算的基本原理和量子计算机实现所存在的困难以及所采用的方案,然后重点讨论与实现量子计算机方案有关如核磁共振、腔量子电动力学(C-QED)和超导约瑟夫森隧结中的量子几何相位。
关键词：	量子计算几何相位量子计算机核磁共振腔QED 超导约瑟夫森结
Quantum Computation and Geometric Quantum Phase

YI Xue-hua,WEN Hui-qiang,YI Zhao-zhao.Quantum Computation and Geometric Quantum Phase[J].Journal of Jiaying University,2009,27(6):33-36.

Authors:	YI Xue-hua WEN Hui-qiang YI Zhao-zhao

Institution:	- zhao (1. School of Physics and Optical In formation Sciences, Jiaying University, Meizhou 514015, China ; 2. School of Architecture and Urban Planning, Huazhong University of Science and Technology, Wuhan 430074, China )

Abstract:	From the prinecple of quantum mechanics, we explain that quantuare computation is a theoretical ba- sis of quantum computer. Quantum computers may provide much greater computing power than classical computers. Using geometric quantum phase to realize high - fidelity universal quantum gates is the key to realize quantum computer and its characteristic is to utilize global geometric features to avoid noise influence in some regions, thus realizing high - fidelity quantum gates. First, we briefly introduce the fundamental principle of quantum computation and existing difficulties of quantum computer implementation; finally, we discuss geometric quantum phase related to scheme of quantum computer implementation such as nuclear magnetic resonance （NMS） ,cavity - QED and superconducting Josephson - junction.

Keywords:	quantum computation geometric phase quantum computer nuclear magnetic resonance cavity- QED superconducting josephson - junction
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