个人简介
教育经历
2006.09 – 2009.12 西安交通大学应用物理系 博士
2007.09 – 2009.09 美国密西根大学物理系 公派联合培养
2003.09 – 2006.07 西安交通大学应用物理系 硕士
1999.09 – 2003.07 西安交通大学应用物理系 学士
工作经历
2019.07 – 至今,北京理工大学物理学院量子技术研究中心,准聘教授、博导
2012.07 – 2019.06,清华大学交叉信息研究院, 助理研究员
2010.09 – 2012.07,中科大量子信息重点实验室,博士后
2010.01 – 2010.07,中科院武汉物理与数学所,助理研究员
学术成就
主持完成自然科学基金青年项目和面上项目各一项,教育部重点项目子课题一项。
已在Nat. Phys.、Phys. Rev. Lett.、Phys. Rev. A、Science Bulletin 等学术刊物上发表论文七十余篇。据Google Scholar检索,截止 2022年8月已被引用3300余次,论文 h 指数为29,12篇论文引用超过100次,其中单篇最高引用超过360次,被中国科学技术信息研究所评为“2007年中国百篇最具影响力国际学术论文”。曾获2015年陕西省科学技术一等奖,《Science Bulletin》2017年度高影响力论文奖,西安交通大学优秀博士论文奖等。
尹璋琦的许多研究工作得到国内外媒体的高度关注。2012 年与人合作提出用囚禁离子实现一种新的“时空晶体”的实验方案。论文发表在Phys. Rev. Lett 上 ,并被选为封面文章和编辑推荐。论文发表后得到麻省理工学院的Technology Review、Nature 、Physics World、New Scientists、科学美国人等国际科学媒体的广泛关注和报道。
2015年,与人合作提出了制备细菌的量子叠加态、量子纠缠态和实现细菌之间量子隐形传态的实验方案,得到了英国《卫报》、《PhysicsWorld》,和中国的《科技日报》、《参考消息》等媒体的广泛报道。2018年,在IBM量子云计算平台上首次实现了16个量子比特的完全纠缠,被数十家国外媒体报道。
近期论文
查看导师新发文章
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Chong Ying, Qihao Guo, Shaowei Li, Ming Gong*, Xiu-Hao Deng*, Fusheng Chen, Chen Zha, Yangsen Ye, Can Wang, Qingling Zhu, Shiyu Wang, Youwei Zhao, Haoran Qian, Shaojun Guo, Yulin Wu, Hao Rong, Hui Deng, Futian Liang, Jin Lin, Yu Xu, Cheng-Zhi Peng, Chao-Yang Lu, Zhang-Qi Yin*, Xiaobo Zhu, and Jian-Wei Pan, “Floquet prethermal phase protected by U(1) symmetry on a superconducting quantum processor“, Phys. Rev. A 105, 012418 (2022)
Yi Huang, Qihao Guo, Anda Xiong, Tongcang Li, Zhang-qi Yin*, “Classical and quantum time crystals in a levitated nanoparticle without drive”, Phys. Rev. A 102, 023113 (2020).
Xingyan Chen, Tongcang Li, Zhang-qi Yin*, “Nonadiabatic dynamics and geometric phase of an ultrafast rotating electron spin”, Sci. Bull. 64, 380 (2019), arXiv:1811.01641.
Y. Xu, W. Cai, Y. Ma, X. Mu, L. Hu, Tao Chen, H.Wang, Y.P. Song, Zheng-Yuan Xue*, Zhang-qi Yin*, and L. Sun*, “Single-loop realization of arbitrary non-adiabatic holonomic single-qubit quantum gates in a superconducting circuit”, Phys. Rev. Lett. 121, 110501 (2018), arXiv:1804.07591.
Yuanhao Wang, Ying Li, Zhang-qi Yin*, Bei Zeng, "16-qubit IBM universal quantum computer can be fully entangled", npj Quantum Information 4, 46 (2018), arXiv:1801.03782.
Jordan Cotler*, Lu-Ming Duan*, Pan-Yu Hou, Frank Wilczek, Da Xu, Zhang-Qi Yin*, and Chong Zu, “Experimental test of entangled histories”, Annals of Physics 387, 334 (2017), arXiv:1601.02943.
Zhang-Qi Yin*, Tongcang Li*, "Bringing quantum mechanics to life: from Schr?dinger's cat to Schr?dinger 's microbe" (Invited review), Contemporary Physics 58, 119 (2017). arXiv:1608.05322.
Thai M. Hoang, Yue Ma, Jonghoon Ahn, Jaehoon Bang, F. Robicheaux, Zhang-Qi Yin*, and Tongcang Li*, “Torsional optomechanics of a levitated nonspherical nanoparticle”, Phys. Rev. Lett. 117, 123604 (2016), highlighted by Physics. arXiv:1605.03990.
Tongcang Li*, Zhang-Qi Yin*, "Quantum superposition, entanglement, and state teleportation of a microorganism on an electromechanical oscillator", Sci. Bull. 61, 163 (2016), arXiv:1509.03763.
Zhang-qi Yin*, W. L. Yang, Luyan Sun, L. M. Duan; “Quantum network of superconducting qubits through opto-mechanical interface”, Phys. Rev. A 91, 012333 (2015), arXiv:1407.4938.
Shuoming An, Jing-Ning Zhang , Mark Um, Dingshun Lv, Yao Lu , Junhua Zhang, Zhang-qi Yin, H. T. Quan*, and Kihwan Kim*; "Experimental Test of Quantum Jarzynski Equality with a Trapped Ion System", Nature Physics 11, 193 (2015) , arXiv:1409.4485.
Zhang-qi Yin, Tongcang Li, Andrew Geraci, “Optomechanics of levitated dielectric particles” (invited review), Int. J. Mod. Phys. B 27, 1330018 (2013), arXiv:1308.4503.
Zhang-qi Yin*, Tongcang Li, Xiang, Zhang, L. M. Duan; “Large quantum superpositions of a levitated nanodiamond through spin-optomechanical coupling”, Phys. Rev. A 88, 033614 (2013), arXiv:1305.1701.
Tongcang Li, Zhe-Xuan Gong, Zhang-Qi Yin, H. T. Quan, Xiaobo Yin, Peng Zhang, L.-M. Duan, Xiang Zhang*, "Space-time crystals of trapped ions", Source: Phys. Rev. Lett. 109, 163001 (2012),arXiv:1206.4772.
Zhang-qi Yin and Fu-li Li*, "Multiatom and resonant interaction scheme for quantum state transfer and logical gates between two remote cavities via an optical fiber", Phys. Rev. A 75, 012324 (2007).