New homepages for Zong-Quan Zhou   [个人网页]

 

[Chinese version:

周宗权,生于19903月,男,中国科学技术大学物理学院 中科院量子信息重点实验室 副教授。

2010年在合肥工业大学获得理学学士学位,2015年在中国科学技术大学获得理学博士学位,师从李传锋教授和光灿院士。留校工作,历任中国科大助理研究员(2014),副研究员(2015),副教授(2018)。担任国家重点研发计划项目课题负责人、主持国家自然科学基金面上项目及青年科学基金项目等多项。入选中科院青促会会员,获得过饶毓泰基础光学奖、中国科学院优秀博士论文奖及全国光学优秀博士论文奖等荣誉。

周宗权基于稀土离子掺杂晶体开展固态量子存储器及量子网络的实验研究,代表性成果包括:提出“无噪声光子回波”(NLPE)原创量子存储方案;建立首个基于吸收型量子存储的量子中继;所研制的固态量子存储器多项技术指标(保真度99.9%、多模式容量100、维度51、光存储寿命1小时)处于领先水平。至今作为第一作者及通讯作者发表Nature 1篇(封面故事),Nature Communications 4篇,PRL 4篇等研究论文。在固态量子存储及量子网络领域授权中国发明专利6项及美国专利1项。研究成果入选2018年度以及2020年度的中国稀土十大科技新闻。

固态量子存储团队得到国家重大科研仪器设备研制专项、国家重点研发专项等重大项目的支持,现已建成国际顶尖的实验平台,欢迎热有志科学研究的学子加入本团队。

招收量子光学、量子存储及量子网络研究方向的博士后。

已有研究平台:

1.    稀土离子掺杂晶体生长

2.    可集成固态量子存储器

3.    深低温电子与核双共振谱仪、光学拉外差探测核磁共振谱仪

4.    量子U

5.    量子中继

讲授本科生课程: 《光学》

]

Zong-Quan Zhou, Associate Professor.
Address: CAS Key Laboratory of Quantum Information, NO.96 Jinzhai Road, University of Science and Technology of China, Hefei, Anhui, 230026, P.R.China
Phone number: +86-551-63600530 (Lab)
E-mail: zq_zhou at ustc.edu.cn

Education:
University of Science and Technology of China, PhD degree (2010-2015). Hefei University of Technology, bachelor degree (2006-2010).  

Academic and Research Positions:
University of Science and Technology of China, Associate Professor (2018), Associate Research Fellow (2015), Assistant Research Fellow (2014)

Research and Grants:
Prof. Zhou focuses on experimental investigations on solid-state quantum memory based on rare-earth-ion-doped crystals, with potential applications in quantum networks and fundamental tests on quantum physics.

Open positions for PhD students and Postdoctoral Fellows.

Selected Publications:

Google Scholar Profile

1.      Elimination of noise in optically rephased photon echoes. Nature Communications 12, 4378 (2021)

2.      Heralded entanglement distribution between two absorptive quantum memories. Nature 594, 41 (2021) [Cover story]

3.      One-hour coherent optical storage in an atomic frequency comb memory. Nature Communications 12, 2381 (2021)

4.      On-Demand Quantum Storage of Photonic Qubits in an On-Chip Waveguide. Physical Review Letters 125, 260504 (2020)

5.      Reliable coherent optical memory based on a laser-written waveguide.  Optica 7, 192 (2020)

6.      Hyperfine Structure and Coherent Dynamics of Rare-Earth Spins Explored with Electron-Nuclear Double Resonance at Subkelvin Temperatures. Physical Review Applied 13, 024080 (2020)

7.      Multiplexed storage and real-time manipulation based on a multiple degree-of-freedom quantum memory. Nature Communications 9, 3407 (2018)

8.      Storage of multiple single-photon pulses emitted from a quantum dot in a solid-state quantum memory. Nature Communications 6, 8652 (2015)

9.      Experimental Detection of Quantum Coherent Evolution through the Violation of Leggett-Garg-Type Inequalities.  Physical Review Letters 115, 113002 (2015)

10.  Quantum Storage of Three-Dimensional Orbital-Angular-Momentum Entanglement in a Crystal. Physical Review Letters 115, 070502 (2015)

11.  Realization of Reliable Solid-State Quantum Memory for Photonic Polarization Qubit. Physical Review Letters 108, 190505 (2012)