Thermal Entanglement in Anisotropic Heisenberg XYZ Chain with External Magnetic Field at Any Finite T

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The thermal entanglement of a Two-qubit anisotropic Heisenberg XYZ chain in thermal equilibrium at temperature T in the presence of external magnetic field is investigated, the combined influence of anisotropic interaction and the inhomogeneous magnetic field on the thermal entanglement of the system is examined. Our results show that, the thermal entanglement can be produced at any finite T by adjusting the magnetic field strength, and the critical magnetic field ∊ for which the concurrence C vanishes is increased by introducing the interaction of the z-component of two neighboring spins Jz, and by the increasing of the anisotropic parameter γ.

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