Wo-Jun Zhong scite author profile

The purport of quantum teleportation is to completely transfer information from one party to another distant partner. However, from the perspective of parameter estimation, it is the information carried by a particular parameter, not the information of total quantum state that needs to be teleported. Due to the inevitable noise in environment, we propose two schemes to enhance quantum Fisher information (QFI) teleportation under amplitude damping noise with the technique of partial measurements. We find that post partial measurement can greatly enhance the teleported QFI, while the combination of prior partial measurement and post partial measurement reversal could completely eliminate the effect of decoherence. We show that, somewhat consequentially, enhancing QFI teleportation is more economic than that of improving fidelity teleportation. Our work extends the ability of partial measurements as a quantum technique to battle decoherence in quantum information processing.

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Dynamics of measurement-induced non-locality and geometric discord with initial system—environment correlations

Rui-Lin

Xing

Zhong

2013

Chinese Phys. B

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We analyze the dynamics of geometric measure of discord (GMOD) and measurement-induced non-locality (MIN) in the presence of initial system-reservoir correlations without Born and Markov approximation. Although the initial system-environment states have the same reduced density matrices for both the system and environment, the effects of different initial system-environment correlations have been shown to fundamentally alter the time evolution of GMOD and MIN between two quantum systems in both Markovian and non-Markovian regimes. In general, both GMOD and MIN experience a sudden increase for initially quantum-correlated states, and a sudden decrease for classical-correlated states before they reach the same stationary values with initially factorized states.

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Robust spin squeezing preservation in photonic crystal cavities

Zhong¹,

Li²,

Xing³

et al. 2016

Laser Phys. Lett.

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We show that the robust spin squeezing preservation can be achieved by utilizing detuning modification for an ensemble of N separate two-level atoms embedded in photonic crystal cavities (PCC). In particular, we explore the different dynamical behaviors of spin squeezing between isotropic and anisotropic PCC cases when the atomic frequency is inside the band gap. In both cases, it is shown that the robust preservation of spin squeezing is completely determined by the formation of bound states. Intriguingly, we find that unlike the isotropic case where steady-state spin squeezing varies smoothly when the atomic frequency moves from the inside to the outside band edge, a sudden transition occurs for the anisotropic case. The present results may be of direct importance for, e.g., quantum metrology in open quantum systems.

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Classical-driving-assisted quantum synchronization in non-Markovian environments

Xing¹,

Lu²,

Zhong³

et al. 2022

Preprint

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Classical-driving-assisted quantum synchronization in non-Markovian environments

Xing

Lu²,

Zhong³

2023

Phys. Rev. A

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Wo-Jun Zhong

Enhancing teleportation of quantum Fisher information by partial measurements

Dynamics of measurement-induced non-locality and geometric discord with initial system—environment correlations

Robust spin squeezing preservation in photonic crystal cavities

Classical-driving-assisted quantum synchronization in non-Markovian environments

Classical-driving-assisted quantum synchronization in non-Markovian environments

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