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Boundary states for entanglement robustness under dephasing and bit flip channels

Boundary states for entanglement robustness under dephasing and bit flip channels
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摘要 We investigate the robustness of entanglement for a multiqubit system under dephasing and bit flip channels. We exhibit the difference between the entanglement evolution of the two forms of special states, which are locally unitarily equivalent to each other and therefore possess precisely the same entanglement properties, and demonstrate that the difference increases with the number of qubits n. Moreover, those two forms of states are either the most robust genuine entangled states or the most fragile ones, which confirm that local unitary(LU) operations can greatly enhance the entanglement robustness of n-qubit states. We investigate the robustness of entanglement for a multiqubit system under dephasing and bit flip channels. We exhibit the difference between the entanglement evolution of the two forms of special states, which are locally unitarily equivalent to each other and therefore possess precisely the same entanglement properties, and demonstrate that the difference increases with the number of qubits n. Moreover, those two forms of states are either the most robust genuine entangled states or the most fragile ones, which confirm that local unitary(LU) operations can greatly enhance the entanglement robustness of n-qubit states.
作者 Hong-Mei Li Miao-Di Guo Rui Zhang Xue-Mei Su 李红梅;郭苗迪;张锐;苏雪梅(College of Physics, Jilin University)
机构地区 College of Physics
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2019年第10期257-262,共6页 中国物理B(英文版)
基金 Project supported by the National Key Research and Development Program of China(Grant No.2016YFE0200700) the National Natural Science Foundation of China(Grant Nos.61627820 and 61934003)
关键词 ENTANGLEMENT DECOHERENCE ROBUSTNESS local UNITARY equivalence entanglement decoherence robustness local unitary equivalence
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