不同方向非均匀磁场对Heisenberg XYZ链中热纠缠的影响

秦猛; 李延标; 白忠

doi:doi:10.3969/j.issn.1007-5461. 2012.04.009

量子电子学报, 2012, 29 (4): 434, 网络出版: 2012-10-08

不同方向非均匀磁场对Heisenberg XYZ链中热纠缠的影响

Effect of different inhomogeneous magnetic fields on thermal entanglement in a two-qutrit Heisenberg XYZ chain

论文大纲

秦猛 ^*李延标白忠

作者单位

解放军理工大学理学院, 江苏南京 211101

量子光学负值度自旋1粒子不同方向非均匀磁场 quantum optics negativity qutrit different inhomogeneous magnetic fields

摘要

采用纠缠度量方法Negativity研究了包含不同方向非均匀磁场自旋为1的两粒子Heisenberg XYZ 链的量子纠缠特性。研究发现，系统处于基态时有量子相变发生，铁磁和反铁磁情形下纠缠的表现行为完全不同，故可以利用这种性质来生成所需纠缠。研究还发现纠缠伴随非均匀磁场的变化有震荡现象，并且x方向和y方向的纠缠存在先消失后复苏现象。纠缠随系统其他参数的变化会因磁场方向的不同而有完全不一样的特征，从而可以通过调节磁场方向、各向异性参数等来提高纠缠值和扩大纠缠范围。

Abstract

The quantum entanglement of two-qutrit Heisenberg XYZ chains interacting with different inhomogeneous magnetic fields is investigated by means of negativity. It is found that the quantum phase transition occurs when the system is in the ground state. The behaviors of entanglement in ferromagnetic and anti-ferromagnetic are totally different. So, entanglement can be produced by this feature. It’s also found that the entanglement behaves oscillator when the external magnetic field becomes inhomogeneous. And the x and y component magnetic fields can induce the entanglement to disappear and then to revive. The dependence of the entanglement on parameters varies with different magnetic fields. The entanglement can be controlled by adjusting the directions of external magnetic field and the anisotropy couplings Jz.

参考文献

[1] Einstein A, et al. Can quantum-mechanical description of physical reality be considered complete ［J］. Phys. Rev., 1935, 47: 777.

[2] Li Chunxian, Jin Lijuan, Wang Chengzhi. Thermal entanglement, mixture and quantum communication in a spin chain ［J］. Chinese Journal of Quantum Electronics (量子电子学报), 2010, 27(1): 51-5(in Chinese).

[3] Klaus M, Harald W, Paul G K, et al. Dense coding in experimental quantum communication ［J］. Phys. Rev. Lett., 1996, 76: 4656.

[4] Deutsch D, Ekert A, Jozsa R, et al. Quantum privacy amplification and the security of quantum cryptography over noisy channels ［J］. Phys. Rev. Lett., 1996, 77: 2818.

[5] Kim Y H, et al. Quantum teleportation of a polarization state with a complete Bell state measurement ［J］. Phys. Rev. Lett., 2001, 86: 1370.

[6] Arnesen M C, Bose S, Vedral V. Natural thermal and magnetic entanglement in the 1D Heisenberg model ［J］. Phys. Rev. Lett., 2001, 87: 017901.

[7] Imamoglu A, Awschalom D D, Burkard G. Quantum information processing using quantum dot spins and cavity QED ［J］. Phys. Rev. Lett., 1999, 83: 4204-4207.

[8] Bose S. Quantum communication through an unmodulated spin chain ［J］. Phys. Rev. Lett., 2003, 91: 207901.

[9] Wang Xiaoguang. Entanglement in the quantum Heisenberg XY model ［J］. Phys. Rev. A, 2001, 64: 012313.

[10] Zheng Shibing, Guo Guangcan. Efficient scheme for two-atom entanglement and quantum information processing in cavity QED ［J］. Phys. Rev. Lett., 2000, 85: 2392.

[11] Cao Min, Zhu Shiqun. Thermal entanglement between alternate qubits of a four-qubit Heisenberg XX chain in a magnetic field ［J］. Phys. Rev. A, 2005, 71, 034311.

[12] Cao Min, Zhu Shiqun. Effects of anisotropy on pair-wise entanglement of a four-qubit Heisenberg XXZ chain ［J］. Chin. Phys. Lett., 2006, 23: 2888.

[13] Zhang Rong, Zhu Shiqun. Thermal entanglement in a two-dimensional Heisenberg XY model ［J］. Phys. Lett. A, 2006, 348: 110-118.

[14] Vidal G, Werner R F. Computable measure of entanglement ［J］. Phys. Rev. A, 2002, 65: 032314.

[15] Zhu Yan, Zhu Shiqun, Hao Xiang. Entanglement in an anisotropic spin-1 Heisenberg chain ［J］. Chinese Phys. B, 2007, 1(8): 2229-2236.

[16] Erhan A. Thermal entanglement in a two-qutrit spin-1 anisotropic Heisenberg model ［J］. Chin. Phys. Lett., 2011, 28: 020306.

[17] Zhang Guofeng, Li Shushen. Thermal entanglement in a two-spin-qutrit system under a nonuniform external magnetic field ［J］. Eur. Phys. J. D, 2005, 37: 123-127.

[18] Li Dachang, Cao Zhuoliang. Thermal entanglement in the anisotropic Heisenberg XYZ model with different inhomogeneous magnetic fields ［J］. Opt. Comm., 2009, 282: 1226-1230.

[19] Qin Meng, Tao Yingjuan. Hu Mingliang, et al. Entanglement in spin-1 Heisenberg XXZ chain ［J］. Chinese Journal of Quantum Electronics (量子电子学报), 2008, 25(3): 302-30(in Chinese).

秦猛, 李延标, 白忠. 不同方向非均匀磁场对Heisenberg XYZ链中热纠缠的影响[J]. 量子电子学报, 2012, 29(4): 434. QIN Meng, LI Yan-biao, BAI Zhong. Effect of different inhomogeneous magnetic fields on thermal entanglement in a two-qutrit Heisenberg XYZ chain[J]. Chinese Journal of Quantum Electronics, 2012, 29(4): 434.

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