Your search keyword '"Mu, W. L."' showing total 6 results

1. Simulation of a feedback-based algorithm for quantum optimization for a realistic neutral atom system with an optimized small-angle controlled-phase gate

Author

Li, S. X., Mu, W. L., You, J. B., and Shao, X. Q.

Subjects

Quantum Physics

Abstract

In contrast to the classical optimization process required by the quantum approximate optimization algorithm, FALQON, a feedback-based algorithm for quantum optimization [A. B. Magann {\it et al.,} {\color{blue}Phys. Rev. Lett. {\bf129}, 250502 (2022)}], enables one to obtain approximate solutions to combinatorial optimization problems without any classical optimization effort. In this study, we leverage the specifications of a recent experimental platform for the neutral atom system [Z. Fu {\it et al.,} {\color{blue}Phys. Rev. A {\bf105}, 042430 (2022)}] and present a scheme to implement an optimally tuned small-angle controlled-phase gate. By examining the 2- to 4-qubit FALQON algorithms in the Max-Cut problem and considering the spontaneous emission of the neutral atomic system, we have observed that the performance of FALQON implemented with small-angle controlled-phase gates exceeds that of FALQON utilizing CZ gates. This approach has the potential to significantly simplify the logic circuit required to simulate FALQON and effectively address the Max-Cut problem, which may pave a way for the experimental implementation of near-term noisy intermediate-scale quantum algorithms with neutral-atom systems., Comment: typos corrected and figures updated

Published

2024

2. Holonomic swap and controlled-swap gates of neutral atoms via selective Rydberg pumping

Author

Sun, C. F., Chen, X. Y., Mu, W. L., Wang, G. C., You, J. B., and Shao, X. Q.

Subjects

Quantum Physics

Abstract

Holonomic quantum computing offers a promising paradigm for quantum computation due to its error resistance and the ability to perform universal quantum computations. Here, we propose a scheme for the rapid implementation of a holonomic swap gate in neutral atomic systems, based on the selective Rydberg pumping mechanism. By employing time-dependent soft control, we effectively mitigate the impact of off-resonant terms even at higher driving intensities compared to time-independent driving. This approach accelerates the synthesis of logic gates and passively reduces the decoherence effects. Furthermore, by introducing an additional atom and applying the appropriate driving field, our scheme can be directly extended to implement a three-qubit controlled-swap gate. This advancement makes it a valuable tool for quantum state preparation, quantum switches, and a variational quantum algorithm in neutral atom systems., Comment: Accepted by EPJ Quantum Technology

Published

2024

3. High-fidelity interconversion between Greenberger-Horne-Zeilinger and $W$ states through Floquet-Lindblad engineering in Rydberg atom arrays

Author

Shao, X. Q., Liu, F., Xue, X. W., Mu, W. L., and Li, Weibin

Subjects

Quantum Physics

Abstract

Greenberger-Horne-Zeilinger and W states feature genuine tripartite entanglement that cannot be converted into each other by local operations and classical communication. Here, we present a dissipative protocol for deterministic interconversion between Greenberger-Horne-Zeilinger and W states of three neutral $^{87}$Rb atoms arranged in an equilateral triangle of a two-dimensional array. With three atomic levels and diagonal van der Waals interactions of Rydberg atoms, the interconversion between tripartite entangled states can be efficiently accomplished in the Floquet-Lindblad framework through the periodic optical pump and dissipation engineering. We evaluate the feasibility of the existing methodology using the experimental parameters accessible to current neutral-atom platforms. We find that our scheme is robust against typical noises, such as laser phase noise and geometric imperfections of the atom array. In addition, our scheme can integrate the Gaussian soft quantum control technique, which further reduces the overall conversion time and increases the resilience to timing errors and interatomic distance fluctuations. The high-fidelity and robust tripartite entanglement interconversion protocol provides a route to save physical resources and enhance the computational efficiency of quantum networks formed by neutral-atom arrays., Comment: 18 pages, 14 figures, accepted by Physical Review Applied

Published

2023

4. Simulation of a feedback-based algorithm for quantum optimization for a realistic neutral-atom system with an optimized small-angle controlled-phase gate

Author

Li, S. X., primary, Mu, W. L., additional, You, J. B., additional, and Shao, X. Q., additional

Published

2024

5. Holonomic swap and controlled-swap gates of neutral atoms via selective Rydberg pumping

Author

Sun, C. F., primary, Chen, X. Y., additional, Mu, W. L., additional, Wang, G. C., additional, You, J. B., additional, and Shao, X. Q., additional

Published

2024

6. Radiosensitization and Anti-tumour Effects of Cytosine Deaminase and Thymidine Kinase Fusion Suicide Gene in Human Adenoid Cystic Carcinoma Cells

Author

Huang, S-Y, primary, Zhang, D-S, additional, Han, J-Q, additional, Zhang, N, additional, Zhang, S-Z, additional, Mu, W-L, additional, and Wei, F-C, additional

Published

2009