Quantum computation and entangled state generation via long-range off-resonant Raman coupling

被引:0
作者
Hong-Fu Wang
Shou Zhang
Ai-Dong Zhu
Kyu-Hwang Yeon
机构
[1] Yanbian University,Department of Physics, College of Science
[2] Dalian University of Technology,School of Physics and Optoelectronic Technology
[3] Chungbuk National University,Department of Physics & BK21 Program for Device Physics, College of Natural Science
来源
Quantum Information Processing | 2013年 / 12卷
关键词
Quantum logic gate; Entangled state; Superconducting quantum-interference device; Optical fiber;
D O I
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中图分类号
学科分类号
摘要
A scheme is proposed to implement two-qubit controlled quantum phase gate and SWAP gate and generate two-qubit entangled state via long-range off-resonant Raman coupling between two spatially separated superconducting quantum-interference devices (SQUIDs). In the scheme each SQUID is coupled with a single-mode cavity individually and the two distant cavities are connected by an optical fiber. The two lowest levels of each SQUID are used to represent the two logical states of a qubit while the two intermediate levels of each SQUID are used to facilitate coherent coupling of quantum states of the qubits during the virtual excitation process of photon. The scheme is robust against fiber loss, cavity decay, and the effect of spontaneous decay from the higher levels and it would be an important step toward distributed quantum computation and long-distance entanglement distribution.
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页码:2207 / 2217
页数:10
相关论文
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