In quantum mechanics, there is no measurement process that could gain some information of an unknown quantum state without causing any disturbance. A tradeoff bound between the amount of information gain �� and the concomitant disturbance ? in the measurement process of a bipartite entangled state is actually ingrained. Such a bound is fundamental and closely connected with the entangled degree b. In this work, the bound for estimation of a partial entangled state with a local strategy is investigated. It is shown that, with local operation with classical communication, a monotonic change in the ?–�� picture will be spotted. This is due to the fact that the partial entanglement gradually becomes two individual qubits and, consequently, the optimal operation boils down to local operations. A quantum circuit which achieves the optimal tradeoff is also obtained.
. [J]. 中国物理快报, 2015, 32(07): 70302-070302.
ZHANG Sheng-Li, WANG-Kun, GUO Jian-Sheng, SHI Jian-Hong. Fidelity Tradeoff in Estimation of Partial Entanglement State with Local Operation and Classic Communication. Chin. Phys. Lett., 2015, 32(07): 70302-070302.
2015, Vol. 32 
