1→N quantum controlled phase gate realized in a circuit QED system 被引量：4

1→N quantum controlled phase gate realized in a circuit QED system

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摘要 We propose an effective method to realize the quantum phase gate the system in which the transmon qubits are capacitively coupled to of one qubit simultaneously controlling N qubits. We use a superconducting transmission line resonator driven by a strong microwave field. In our scheme, the phase gate can be realized in a time （nanosecond-scale） much shorter than deco herence time （microsecond-scale）, and it is more immune to the l/（charge noise and has longer dephasing time due to the fa vorable properties of the transmon qubits in the system. We propose an effective method to realize the quantum phase gate of one qubit simultaneously controlling N qubits. We use the system in which the transmon qubits are capacitively coupled to a superconducting transmission line resonator driven by a strong microwave field. In our scheme, the phase gate can be realized in a time (nanosecond-scale) much shorter than decoherence time (microsecond-scale), and it is more immune to the 1/f charge noise and has longer dephasing time due to the favorable properties of the transmon qubits in the system.

作者 GAO GuiLong CAI GenChang HUANG.ShouSheng TANG LongYing GU WenJing WANG MingFeng JIANG-NianQuan

机构地区 College of Physics and Electric Information College of Music

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2012年第8期1422-1426,共5页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the National Natural Science Foundation of China (Grant No. 10947017/A05) the Key Lab of Novel Thin Film Solar Cells (Grant No. KF200912) Graduates’ Innovative Scientific Research Project of Zhejiang Province (Grant No. 2011831)

关键词 phase gate transmon qubit transmission line resonator 量子系统量子相位量子控制 QED 电路量子比特相干时间微波场驱动

分类号 TN241 [电子电信—物理电子学] O413 [理学—理论物理]

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参考文献40

1Kiesel N, Schmid C, Weber U, et al. Linear optics controlled-phase gate made simple. Phys Rev Lett, 2005, 95:210505.
2Wang H F, Shao X Q, Zhao Y F, et al. Scheme for implementing linear optical quantum iSWAP gate with conventional photon detectors. JOSA B, 2010, 27:27-31.
3lsenhower L, Urban E, Zhang X, et al. Demonstration of a neutral atom controlled-NOT quantum gate. Phys Rev Lett, 2010, 104: 010503.
4Duan, L M, Wang B, Kimble H J. Robust quantum gates on neutral atoms with cavity-assisted photon scattering. Phys Rev A, 2005, 72: 032333.
5He Y, Jiang N Q, Ji Y Y. One-dimensional cluster state generated in one step via one cavity. Opt Commun, 2010, 283:1979-1983.
6Monroe C, Meekhof D M, King B E, et al. Demonstration of a fundamental quantum logic gate. Phys Rev Lett, 1995, 75: 4714- 4717.
7Jones J A, Mosca M, Hansen R 14. Implementation of a quantum search algorithm on a quantum computer. Nature, 1998, 393: 344- 346.
8Fushman 1, Englund D, Faraon A, et al. Controlled phase shifts with a single quantum dot. Science, 2008, 320:769-772.
9Yang C P, Chu S I. Possible realization of entanglement, logical gates, and quantum-information transfer with superconducting-quantum- interference-device qubits in cavity QED. Phys Rev A, 2003, 67: 042311.
10Yang C P, Chu S I, Han S. Quantum information transfer and entanglement with SQUID qubits in cavity QED: A dark-state scheme with tolerance tot nonuniform device parameter. Pbys Rev Lett, 2004, 92:117902.

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3曹卓良,郭光灿.光脉冲与微波场驱动三能级系统的相干作用[J].量子光学学报,1996,2(2):83-91.
4周青春,顾柏平.微波场驱动的近简Λ型三能级原子的发射谱[J].华东船舶工业学院学报,2004,18(3):35-38.
5陈立冰,金锐博,路洪.Teleporting a quantum controlled-Not with one target/two targets gate using two partially entangled states[J].Chinese Physics B,2009,18(1):30-34.
6激光物理[J].中国光学,2001(6):11-13.
7宋崇希,刘念华.低频微波场驱动的四能级原子系统自发辐射的相干控制[J].量子光学学报,2010(4):252-258. 被引量：1
8宋明玉,吴耀德.微波驱动双模四能级单原子中连续变量纠缠的制备[J].物理学报,2013,62(6):211-216. 被引量：4
9黄秀花,陈志华,汤耀祥,林秀敏.Realization of a Multiqubit Conditional Phase Gate by Virtue of a Weak Coherent Light Field[J].Chinese Physics Letters,2009,26(6):35-37.
10韩馥儿.崭新一代的量子控制通信[J].现代通信,1990(4):1-3.

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2012年第8期

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1→N quantum controlled phase gate realized in a circuit QED system 被引量：4

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