Yan-Ling Li
Jiangxi University of Science and Technology
49 Papers
194 Citations
Yan-Ling Li is an academic researcher from Jiangxi University of Science and Technology. The author has contributed to research in topics: Quantum decoherence & Quantum entanglement. The author has an hindex of 12, co-authored 40 publications. Previous affiliations of Yan-Ling Li include Hunan Normal University.
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Papers
Enhancing teleportation of quantum Fisher information by partial measurements
TL;DR: In this article, the authors proposed two schemes to enhance quantum Fisher information (QFI) teleportation under amplitude damping noise with the technique of partial measurements, and they showed that post-partial measurement can greatly enhance the teleported QFI, while the combination of prior partial measurement and postpartial measurement reversal could completely eliminate the effect of decoherence.
115
Protecting qutrit-qutrit entanglement by weak measurement and reversal
Xing Xiao,Yan-Ling Li +1 more
TL;DR: In this article, Sun et al. generalized their work from qubits to qutrits under amplitude damping decoherence, and showed that the qubit-qutrit entanglement can be partially retrieved for certain initial states when only weak measurement reversals are performed.
77
Enhance quantum teleportation under correlated amplitude damping decoherence by weak measurement and quantum measurement reversal
TL;DR: The results extend the ability of weak measurement as a technique in various quantum information processes which are affected by correlated noise by showing that the correlated effects enable to improve the fidelity with the given decoherence parameter.
37
Tunable quantum routing via asymmetric intercavity couplings
TL;DR: This work has put forward a proposal to control the quantum routing of photons by adjusting asymmetric intercavity couplings on both sides of a cross-Cavity in an X-shaped coupled-resonator waveguide.
29
Control of single-photon routing in a T -shaped waveguide by another atom
TL;DR: The proposed double-atom configuration could be utilized as a bidirectional quantum routing controller to implement high transfer rate routing of single photons in a T-shaped coupled-resonator waveguide.
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