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量子电子学报 2013

耦合量子比特在最大纠缠混合态下几何量子失协鲁棒性的研究

, PP. 572-578

胡燕,于雁霞,嵇英华

Keywords: 量子关联,共生纠缠度,几何量子失协,耦合量子比特

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Abstract:

几何测量量子失协是量子关联的一种表达形式。本文结合利用量子纠缠和几何量子失协，对非马尔科夫过程中的耦合量子比特系统的量子关联动力学特性进行了比较研究。运用解析和数值模拟的方法，研究结果表明，在一定的初始态下，由于环境耗散作用的存在，量子纠缠和几何量子失协都随时间做递减的动力学演化，但几何量子失协比量子纠缠的递减要慢一些。表明几何量子失协的生存时间长于量子纠缠，更能抵抗环境的耗散作用、健壮性更好。因此，量子关联也是实现量子信息处理的有用资源。

References

[1]	Vedral V, Plenio M B, Jaeobs K, and Knight P L. Statistical Inference, Distinguishability of Quantum States, And Quantum Entanglement [J]. Phys. Rev. A, 1997, 56: 4452-4455.
[2]	Bennett C H, DiVineenzo D P, Smolin J A, and Wootters W K. Mixed-state entanglement and quantum error correction [J]. Phys. Rev. A, 1996, 54: 3824-3851.
[3]	Vidal G, and Werner R F. Computable measure of entanglement [J]. Phys. Rev. A, 2002, 65: 032314.
[4]	Ji Y H, Xu L. Entanglement decoherence of coupled superconductor qubits entangled states in non-Markovian environment [J]. Chinese Journal of Quantum Electronics (量子电子学报), 2011, 28 (1): 58-64 ( in Chinese).
[5]	Datta A, Shaji A, Caves M. Quantum Discord and the Power of One Qubit [J]. Phys. Rev. Lett., 2008, 100: 050502.
[6]	Lanyon B P, Barbieri M, Almeida M P and White A G. Experimental Quantum Computing without Entanglement [J]. Phys. Rev. Lett., 2008, 101: 200501.
[7]	Yu T and Eberly J H. Sudden Death of Entanglement [J]. Science, 2009, 323: 598-601.
[8]	Olliver H and Zurek W H. Quantum Discord: A Measure of the Quantumness of Correlations [J]. Phys. Rev. Lett., 2001, 88: 017901.
[9]	Fanchini F F, Werlang T, Brasil C A, Arruda L G E, and Caldeira A O. Phys. Rev. A. 2010, 81: 052107.
[10]	Cui J and Fan H J. Correlations in the Grover search [J]. Phys. A: Math. Theor. 2010, 43: 045305.
[11]	Zurek W H. Decoherence and the transition from quantum to classical--REVISITED quant-ph/0306072.
[12]	Werlang T, Rigolin G. Thermal and magnetic quantum discord in Heisenberg models [J]. Phys. Rev. A, 2010, 81: 044101.
[13]	Luo S. Quantum discord for two-qubit systems [J]. Phys. Rev. A, 2008, 77: 042303.
[14]	Sarandy M S. Classical correlation and quantum discord in critical systems [J]. Phys. Rev. A, 2009, 80: 022108.
[15]	Adesso G and Datta A. Quantum versus Classical Correlations in Gaussian States [J]. Phys. Rev. Lett., 2010, 105: 030501.
[16]	Dakic B, Vedral V, and Brukner C. Necessary and Sufficient Condition for Nonzero Quantum Discord [J]. Phys. Rev. Lett., 2010, 105: 190502.
[17]	Verstraete F, Audenaert K, and Moor B D. Maximally entangled mixed states of two qubits [J]. Phys. Rev. A, 2001, 64: 012316.
[18]	Lshizaka S and Hiroshima T. Maximally entangled mixed states under nonlocal unitary operations in two qubits [J]. Phys. Rev. A, 2000, 62: 022310.
[19]	Ji Y H, Hu Y, Yu Y X, Entanglement and Decoherence of Coupled Superconductor Qubits in Contact with a Common Environment [J]. Int. J. Theor. Phys., 2011, 50: 3313-3321.
[20]	Wootters W K. Entanglement of Formation of an Arbitrary State of Two Qubits [J]. Phys. Rev. Lett., 1998, 80(10): 2245-2248.
[21]	Schlienz J, Mahler G. Description of entanglement [J]. Phys. Rev. A, 1995, 52: 4396-4404.

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