北京化工大学王冠玉个人主页-副教授-数理学院

个人简介

教育经历

入学时间	毕业时间	学位授予单位	学历
2012-09-01	2017-06-30	北京师范大学	博士研究生毕业
2008-09-01	2012-07-01	华南师范大学	大学本科毕业

工作经历

起始年月	截止年月	所在单位名称
2017-07-11	2019-07-11	清华大学
2019-07-18	至今	北京化工大学

社会职务

社会活动

研究领域

研究方向为量子信息处理

在量子计算方面，主要集中于量子逻辑门的构建方案
在量子通信方面，主要集中于量子纠缠态的制备和分析方案，以及量子纠缠提纯方案

部分论文信息

[1]J. W. Luo and G. Y. Wang*, High-fidelity universal quantum gates for hybrid systems via the practical photon scattering, Chin. Phys. B 32, 030303 (2023).

[2]G. Y. Wang and H. R. Wei*, High-fidelity photonic three-degree-of-freedom hyperparallelcontrolled-phase-flip gate, Frontiers in Physics10, 960078 (2022).

[3] G. Y. Wang and G. L. Long*, Entanglement purification for memory nodes in a quantum network, Sci. China-Phys. Mech. Astron. 63, 220311(2020).

[4]G. Y. Wang, Q. Ai, F. G. Deng and B. C. Ren*, Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters, Optics Express 28 (13), 18693-18706 (2020).

[5]G. Y. Wang, B. C. Ren, F. G. Deng, and G. L. Long*, Complete analysis of hyperentangled Bell states assisted with auxiliary hyperentanglement, Opt. Express 27 (6), 8994-9003 (2019).

[6]G. Y. Wang † , T. Li† , Q. Ai, A. Alsaedi, T. Hayat, and F. G. Deng*, Faithful entanglement purification for high-capacity quantum communication with two-photon four-qubit systems, Phys. Rev. Appl. 10, 054058 (2018).

[7]G. Y. Wang, T. Li, Q. Ai, and F. G. Deng*, Self-error-corrected hyperparallel photonic quantum computation working with both the polarization and the spatial-mode degrees of freedoms, Opt. Express 26 (18), 23333-23346 (2018).

[8]G. Y. Wang, Q. Liu, and F. G. Deng*, Hyperentanglement purification for two-photon six-qubit quantum systems, Phys. Rev. A 94, 032319 (2016).

[9]G. Y. Wang, Q. Ai, B. C. Ren, T. Li, and F. G. Deng*, Error-detected generation and complete analysis of hyperentangled Bell states for photons assisted by quantum-dot spins in double-sided optical microcavities, Opt. Express 24 (25), 28444-28458 (2016).

[10]G. Y. Wang, Q. Liu, H. R. Wei, T. Li, Q. Ai, and F. G. Deng*, Universal quantum gates for photon-atom hybrid systems assisted by bad cavities, Sci. Rep. 6, 24183 (2016).

[11]G. Y. Wang, T. Li, and F. G. Deng*, High-efficiency atomic entanglement concentration for quantum communication network assisted by cavity QED, Quantum Inf. Process. 14, 1305-1320 (2015).

本科生课程

课程名称	开课学年	课程总学时	选课人数	课程性质
量子力学	2021	64	60	专业必修
文献查阅与科技写作	2023	32	162	公共基础选修
文献查阅与科技写作	2023	32	157	公共基础选修
大学物理实验(II)	2023	32	23	实践环节必修
大学物理实验(II)	2023	32	28	实践环节必修
量子力学A	2023	48	71	专业必修
大学物理实验(II)	2022	32	29	实践环节必修
大学物理实验(II)	2022	32	29	实践环节必修
文献查阅与科技写作	2022	32	71	公共基础选修
文献查阅与科技写作	2022	32	74	公共基础选修
量子力学	2022	64	71	专业必修
文献查阅与科技写作	2021	32	86	专业选修
文献查阅与科技写作	2021	32	75	专业选修
文献查阅与科技写作	2021	32	19	公共基础选修
科技英语	2020	32	122	专业选修
大学物理实验(II)	2020	32	29	实践环节必修
大学物理实验(II)	2020	32	27	实践环节必修
大学物理实验(II)	2020	32	27	实践环节必修
大学物理实验(II)	2020	32	25	实践环节必修
大学物理实验(II)	2020	32	29	公共基础必修
大学物理实验(II)	2020	32	30	公共基础必修
大学物理实验(II)	2020	32	28	公共基础必修
大学物理实验(II)	2020	32	31	公共基础必修
文献查阅与科技写作	2020	32	24	公共基础选修
科技英语	2019	32	79	专业选修
大学物理实验(II)	2019	32	21	公共基础必修
大学物理实验(II)	2019	32	28	实践环节必修
大学物理实验(II)	2019	32	25	公共基础必修
大学物理实验(II)	2019	32	25	公共基础必修

研究生课程

校级项目

纵向项目

1. 量子通信中光子高维纠缠态的抗噪声处理研究，国家自然科学基金项目，项目时间：2021-01-01 至 2023-12-31
2. 量子通信中基于固态量子存储系统的抗噪声处理研究，国家自然科学基金项目，项目时间：2020-01-01 至 2020-12-01

横向项目

论文信息

[+][-]代表性论文

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-] 2024年

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-] 2023年

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-]2022年

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-]2021年

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-]2020年

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

[+][-]2020年之前

1. DOI Xie, Zhihao,王冠玉,Guo, Zehui,Li, Zhenhua,Li, Tao
Heralded quantum multiplexing entanglement between stationary qubits via distribution of high-dimensional optical entanglement[期刊论文]，Optics Express，2023-11-06
2. DOI Luo, Jun-Wen,王冠玉
High-fidelity universal quantum gates for hybrid systems via the practical photon scattering[期刊论文]，Chinese Physics B，2023-02-01
3. DOI 王冠玉,Wei, Hai-Rui
High-Fidelity Photonic Three-Degree-of-Freedom Hyperparallel Controlled-Phase-Flip Gate[期刊论文]，FRONTIERS IN PHYSICS，2022-08-11
4. DOI 王冠玉,艾清,邓富国,任宝藏
Imperfect-interaction-free entanglement purification on stationary systems for solid quantum repeaters[期刊论文]，OPTICS EXPRESS，2020-06-22

教师个人主页

王冠玉