Entanglement and Teleportation via Thermally Entangled State of Anisotropic Heisenberg XYZ Chain with Inhomogeneous External Magnetic Field |
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Authors: | NI Hui-Ying FANG Jian-Xing ZHU Shi-Qun SHA Jin-Qiao JIANG Wei-Xing |
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Affiliation: | School of Physics and Technology, Suzhou University, Suzhou 215006, China |
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Abstract: | In this paper we study the entanglement in a two-qubit spin in the XYZ model, and teleport a two-qubit entangled state using this spin chain in the condition of the thermal equilibrium as a quantum channel. We investigate the effects of the interaction of z-component Jz, the inhomogeneous magnetic field b, the anisotropy γ, and the temperature T on the entanglement and fidelity. In order to characterize the quality of the teleported state, we research the average fidelity Fa. High average fidelity of the teleportation is obtained when the temperature is very low. Under some condition, we also find that when inhomogeneity increases to a certain value, the average fidelity can exhibit a larger revival than that for less values of b. |
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Keywords: | Heisenberg chain thermal entanglement quantum teleportation fidelity |
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