Ming Hua scite author profile

Bell-state analysis (BSA) is essential in quantum communication, but it is impossible to distinguish unambiguously the four Bell states in the polarization degree of freedom (DOF) of two-photon systems with only linear optical elements, except for the case in which the BSA is assisted with hyperentangled states, the simultaneous entanglement in more than one DOF. Here, we propose a scheme to distinguish completely the 16 hyperentangled Bell states in both the polarization and the spatial-mode DOFs of two-photon systems, by using the giant nonlinear optics in quantum dot-cavity systems. This scheme can be applied to increase the channel capacity of long-distance quantum communication based on hyperentanglement, such as entanglement swapping, teleportation, and superdense coding. We use hyperentanglement swapping as an example to show the application of this HBSA.

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AD-IoT: Anomaly Detection of IoT Cyberattacks in Smart City Using Machine Learning

Alrashdi

et al. 2019

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Situ: A Situation-Theoretic Approach to Context-Aware Service Evolution

Chang

Jiang

Hua

et al. 2009

IEEE Trans. Serv. Comput.

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Universal quantum gates on microwave photons assisted by circuit quantum electrodynamics

2014

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Based on a microwave-photon quantum processor with two superconducting resonators coupled to one transmon qutrit, we construct the controlled-phase (c-phase) gate on microwave-photon-resonator qudits, by combination of the photon-number-dependent frequency-shift effect on the transmon qutrit by the first resonator and the resonant operation between the qutrit and the second resonator. This distinct feature provides us a useful way to achieve the c-phase gate on the two resonator qudits with a higher fidelity and a shorter operation time, compared with the previous proposals. The fidelity of our c-phase gate can reach 99.51% within 93 ns. Moreover, our device can be extended easily to construct the three-qudit gates on three resonator qudits, far different from the existing proposals. Our controlled-controlled-phase gate on three resonator qudits is accomplished with the assistance of a transmon qutrit and its fidelity can reach 92.92% within 124.64 ns.

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Ming Hua

Survey of heavy metal pollution and assessment of agricultural soil in Yangzhong district, Jiangsu Province, China

Complete hyperentangled-Bell-state analysis for photon systems assisted by quantum-dot spins in optical microcavities

AD-IoT: Anomaly Detection of IoT Cyberattacks in Smart City Using Machine Learning

Situ: A Situation-Theoretic Approach to Context-Aware Service Evolution

Universal quantum gates on microwave photons assisted by circuit quantum electrodynamics

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