Protecting Distribution Entanglement for Two-Qubit State Using Weak Measurement and Reversal |
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Authors: | Wenjuan Li Zhi He Qiong Wang |
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Institution: | 1.Department of Junior Education,Changsha Normal University,Changsha,China;2.College of Physics and Electronics,Hunan University of Arts and Science,Changde,China |
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Abstract: | Protection of entanglement from disturbance of the environment is an essential task in quantum information processing. We investigate the effect of the weak measurement and reversal (WMR) on the protection of the entanglement for an arbitrarily entangled two-qubit pure state from these three typical quantum noisy channels, i.e., amplitude damping channel, phase damping channel and depolarizing quantum channel. Given the parameters of the Bell-like initial qubits’ state |ψ〉 = a|00〉 + d|11〉, it is found that the WMR operation indeed helps for protecting distributed entanglement from the above three noisy quantum channels. But for the Bell-like initial qubits’ state |?〉 = b|01〉 + c|10〉, the WMR operation only protects entanglement in the amplitude damping channel, not for the phase damping and depolarizing quantum channels. In addition, we discuss how the concurrence and the success probability behave with adjusting the weak or the reversal weak measurement strength. |
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