基本情况
职称: 教授
学位: 博士
毕业学校: 中国科学技术大学
电子邮件: zhouxq8@mail.sysu.edu.cn
教育背景
2003.09-2008.07 中国科学技术大学 近代物理系,博士
2001.09-2003.07 中国科学技术大学 电子工程与信息科学系,双学士
1999.09-2003.07 中国科学技术大学 近代物理系,学士
工作履历
2015.06-至今 中山大学 物理学院,教授
2008.11-2015.06 英国布里斯托尔大学 (University of Bristol),博士后
学术兼职
暑期学校 IQSD 2013
芬兰 Aalto University 受邀讲师
研究领域
光学量子信息实验研究
研究方向
1. 集成光学量子芯片的研制及其应用;
2. 量子相位估计算法的完美实现;
3. 实现多比特量子门的新方法及其实验验证;
4. 突破散粒噪声极限的量子过程层析;
5. 量子自动机的实现。
主讲课程
学术成果
【学术表现】
长期从事线性光学量子信息研究,累计发表论文30余篇,包括Nature Photonics、Nature Communications、Science Advances、Optica、npj Quantum Information杂志等,文章引用次数>1900
【主要论著】
22. Observation of nonlocality sharing via not-so-weak measurements
Tianfeng Feng, Changliang Ren*, Yuling Tian, Maolin Luo, Haofei Shi, Jingling Chen, and Xiaoqi Zhou*
Physical Review A 102, 032220 (2020)
21. Experimentally undoing an unknown single-qubit unitary
Qin Feng#, Tianfeng Feng#, Yuling Tian, Maolin Luo, and Xiaoqi Zhou*
Physical Review A 102, 012602 (2020)
20. Photonic integrated quantum key distribution receiver for multiple users
Lingwen Kong#, Zhihao Li#, Congxiu Li, Lin Cao, Zeyu Xing, Junqin Cao, Yaxin Wang, Xinlun Cai*, and Xiaoqi Zhou*
Optics Express 28, 18449-18455 (2020)
19. Chip-to-chip quantum teleportation and multi-photon entanglement in silicon
Daniel Llewellyn#, Yunhong Ding#, Imad I. Faruque#, Stefano Paesani, Davide Bacco, Raffaele Santagati, Yan-Jun Qian, Yan Li, Yun-Feng Xiao, Marcus Huber, Mehul Malik, Gary F. Sinclair, Xiaoqi Zhou, Karsten Rottwitt, Jeremy L. O’Brien, John G. Rarity, Qihuang Gong, Leif K. Oxenlowe, Jianwei Wang* & Mark G. Thompson
Nature Physics 16, 367 (2020)
18. An integrated silicon photonic chip platform for continuous-variable quantum key distribution
G. Zhang, J. Y. Haw, H. Cai, F. Xu*, S. M. Assad, J. F. Fitzsimons, X. Zhou, Y. Zhang, S. Yu, J. Wu, W. Ser, L. C. Kwek* & A. Q. Liu*
Nature Photonics 13, 839-842 (2019)
17. Passive and active nonlocality sharing for a two-qubit system via weak measurements
Changliang Ren*, Tianfeng Feng, Dan Yao, Haofei Shi, Jingling Chen*, and Xiaoqi Zhou*
Physical Review A 100, 052121 (2019)
16. Experimental demonstration of quantum finite automaton
Yuling Tian#, Tianfeng Feng#, Maolin Luo, Shenggen Zheng* & Xiaoqi Zhou*
npj Quantum Information 5, 4 (2019)
15. Collaborative quantum computation with redundant graph state
Tian Yu-Ling, Feng Tian-Feng & Zhou Xiao-Qi*
Acta Physica Sinica 68, 110302 (2019)
14. Large-scale silicon quantum photonics implementing arbitrary two-qubit processing
Xiaogang Qiang, Xiaoqi Zhou*, Jianwei Wang, Callum M. Wilkes, Thomas Loke, Sean O’Gara, Laurent Kling, Graham D. Marshall, Raffaele Santagati, Timothy C. Ralph, Jingbo B. Wang, Jeremy L. O’Brien, Mark G. Thompson & Jonathan C. F. Matthews*
Nature Photonics 12, 534-539 (2018)
13. Witnessing eigenstates for quantum simulation of Hamiltonian spectra
Raffaele Santagati#*, Jianwei Wang#, Antonio A. Gentile#, Stefano Paesani, Nathan Wiebe*, Jarrod R. McClean, Sam Morley-Short, Peter J. Shadbolt, Damien Bonneau, Joshua W. Silverstone, David P. Tew, Xiaoqi Zhou*, Jeremy L. O’Brien and Mark G. Thompson*
Science Advances 4 : eaap9646 (2018)
12. Quantum processing by remote quantum control
Xiaogang Qiang*, Xiaoqi Zhou*, Kanin Aungskunsiri, Hugo Cable and Jeremy L O'Brien*
Quantum Science and Technology 2, 045002 (2017)
11. High-dimensional quantum key distribution based on multicore fiber using silicon photonic integrated circuits
Yunhong Ding*, Davide Bacco*, Kjeld Dalgaard, Xinlun Cai, Xiaoqi Zhou, Karsten Rottwitt & Leif Katsuo Oxenløwe
npj Quantum Information 3, 25 (2017)
10. Quantum gambling based on Nash-equilibrium
Pei Zhang*, Xiao-Qi Zhou*, Yun-Long Wang, Bi-Heng Liu, Pete Shadbolt, Yong-Sheng Zhang, Hong Gao, Fu-Li Li & Jeremy L. O’Brien
npj Quantum Information 3, 24 (2017)
9. Towards practical quantum metrology with photon counting
Jonathan CF Matthews#, Xiao-Qi Zhou#, Hugo Cable#, Peter J Shadbolt#, Dylan J Saunders, Gabriel A Durkin, Geoff J Pryde and Jeremy L O’Brien
npj Quantum Information 2, 16023 (2016)
8. Efficient quantum walk on a quantum processor
Xiaogang Qiang#, Thomas Loke#, Ashley Montanaro, Kanin Aungskunsiri, Xiaoqi Zhou, Jeremy L. O’Brien, Jingbo B. Wang & Jonathan C.F. Matthews
Nature Communications 7, 11511 (2016)
7. Orbital angular momentum vertical-cavity surface-emitting lasers
Huanlu Li#, David B. Phillips#, Xuyang Wang, Ying-lung Daniel Ho, Lifeng Chen, Xiaoqi Zhou, Jiangbo Zhu, Siyuan Yu and Xinlun Cai*
Optica 2, 547-552 (2015)
6. Quantum-enhanced tomography of unitary processes
Xiao-Qi Zhou#, Hugo Cable#*, Rebecca Whittaker#, Peter Shadbolt, Jeremy L. O’Brien and Jonathan C. F. Matthews
Optica 2, 510-516 (2015)
5. A variational eigenvalue solver on a photonic quantum processor
Alberto Peruzzo#, Jarrod McClean#, Peter Shadbolt, Man-Hong Yung, Xiao-Qi Zhou, Peter J. Love, Alán Aspuru-Guzik* and Jeremy L. O’Brien*
Nature Communications 5, 4213 (2014)
4. Calculating Unknown Eigenvalues with a Quantum Algorithm
Xiao-Qi Zhou, Pruet Kalasuwan, Timothy C. Ralph and Jeremy L. O'Brien*
Nature Photonics 7, 223–228 (2013)
3. Experimental realization of Shor's quantum factoring algorithm using qubit recycling
Enrique Martin Lopez#, Anthony Laing#, Thomas Lawson#, Roberto Alvarez, Xiao-Qi Zhou and Jeremy L. O'Brien*
Nature Photonics 6, 773–776 (2012)
2. Adding control to arbitrary unknown quantum operations
Xiao-Qi Zhou, Timothy C. Ralph, Pruet Kalasuwan, Mian Zhang, Alberto Peruzzo, Benjamin P. Lanyon and Jeremy L. O’Brien*
Nature Communications 2, 413 (2011)
1. Quantum walks of correlated photons
Alberto Peruzzo, Mirko Lobino, Jonathan C.F. Matthews, Nobuyuki Matsuda, Alberto Politi, Konstantinos Poulios, Xiao-Qi Zhou, Yoav Lahini, Nur Ismail, Kerstin Worhoff, Yaron Bromberg, Yaron Silberberg, Mark G Thompson and Jeremy L. O’Brien*
Science 329, 5998 (2010)
【科研课题】
国家重点研发计划“量子调控与量子信息”重点专项青年项目——基于集成光子器件的量子信息基础研究 ,2017-2022,主持
国家自然科学基金面上基金——量子通信硅基集成光子器件基础研究,2020-2023,主持
广东省重点领域研发计划——基于半导体光电异质结构的集成量子信息芯片,2019-2022,课题负责人
广东省重点领域研发计划——城域量子安全通信时频网络及关键技术,2019-2022,课题负责人
国家重点研发计划“量子调控与量子信息”重点专项——固态光学微腔与量子体系相互耦合的调控及其量子器件研究,2016-2021,参与
广东省自然科学基金——片上量子光源器件及其混合集成芯片研究团队,2016-2021,参与
【发明专利】
【学术会议报告】
奖励与荣誉