尹璋琦的个人简历：

更新日期：2019年11月24日

出生年月：1982年4月    国籍：中国

出生地：中国湖北省孝感市

电话：+86 18500020016

电子信箱：zqyin@bit.edu.cn

通讯地址：北京市海淀区北京理工大学中心教学楼615室    邮编：100081

研究兴趣

量子信息，光力学。

教育经历

物理学博士，2006.9－2009.12，西安交通大学应用物理系，论文题目：腔量子电动力学和光机械系统中的量子信息过程。导师：李福利教授。

理论物理硕士，2003.9-2006.7，西安交通大学应用物理系，论文题目：基于腔QED实现分布式量子计算和制备多体量子纠缠态的研究。指导教师：李福利教授。

理学学士，1999.9-2003.7，西安交通大学。

研究与工作经历

2019.7-至今，北京理工大学物理学院量子技术研究中心准聘教授。

2012.7-2019.6，清华大学交叉信息研究院助理研究员。

2010.9-2012.6，中国科学技术大学量子信息实验室，博士后。

2010.1-2010.7，中科院武汉物理与数学所，助理研究员。

2007.9-2009.9, 美国密歇根大学物理系访问学生, 导师：段路明教授。

奖项与荣誉

2018年2月，获得《Science Bulletin》2017年度高影响力论文奖。

2015年12月，获得2015年度陕西省科学技术进步一等奖（第六获奖人）。

2010年9月，获西安交通大学校级优秀博士学位论文。

2008年12月, 论文 Phys. Rev. A 75, 012324 (2007) 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 "。

基金项目

2018.01-2021.12，国家自然科学基金面上项目，批准号：61771278；项目名称: 基于金刚石色心与力学振子复合系统的量子信息处理；直接经费：62万元；项目负责人。

2016.01-2018.12, 装备预研教育部联合基金（重点）子课题，批准号：6141A02011604；项目名称：基于光动量的载体运动信息测量方案研究；经费：40万元；子课题负责人。

2015.01-2019.12，国家自然科学基金重点项目，批准号：61435007；项目名称：基于片上回音壁模光学微腔的光力量子基态冷却；承担经费50万元，负责理论分析。

2012.01-2014.12，国家自然科学基金青年项目，批准号：11105136；项目名称: 光机械系统中的量子信息过程与精密测量；经费：24万元；项目负责人。

2011年7月-2012年8月，第四十九批中国博士后面上基金资助，批准号：20110490829；项目名称：光机械中的量子信息过程；经费：3万元；项目负责人。

学术统计

总引用数为2143，h因子为24。

Google Scholar 

学术论文

论文作者中带“*"的为通讯作者。

1. Shengyan Liu, Zhang-qi Yin*, Tongcang Li*, “Prethermalization and nonreciprocal phonon transport in a levitated optomechanical array”, accepted for Advanced Quantum Technologies, arXiv:1810.00163.
2. Quantum information processing with closely-spaced diamond color centers in strain and magnetic fields, Zhujing Xu, Zhang-qi Yin, Qinkai Han, Tongcang Li, Optical Materials Express 9, 4654 (2019), arXiv:1909.11775 (被引用1次)
3. Observation of topological magnon insulator states in a superconducting circuit, Weizhou Cai, Jiaxiu Han, Feng Mei*, Yuan Xu, Yuwei Ma, Xuegang Li, Haiyan Wang, Yipu Song, Zheng-Yuan Xue, Zhang-qi Yin, Suotang Jia, Luyan Sun*, Phys. Rev. Lett. 123, 080501 (2019), highlight by Physics, arXiv:1901.05683 (被引用8次）
4. Xingyan Chen, Zhang-qi Yin*, “Universal quantum gates with Nitrogen-vacancy centers in a levitated nanodiamond under librational thermal motion”, Phys. Rev. A 99, 022319 (2019), arXiv:1810.00285. （被引用2次）
5. 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. (被引用6次)
6. Huizhu Hu, Zhangqi Yin, Nan Li, et al. Inertial Sensing Disruptive Technology Based on Levitated Optomechanics (in Chinese). Strategic Study of Chinese Academy of Engineering, 2018, 20(6): 112-116.
7. Xingyan Chen, Zhang-qi Yin*, “High-precision gravimeter based on a nano-mechanical resonator hybrid with an electron spin”, Optics Express 26, 31577 (2018)，arXiv:1807.05671. (被引用1次)
8. X. Li, Y. Ma, J. Han, Tao Chen, Y. Xu, W. Cai, H. Wang, Y. P. Song, Zheng-Yuan Xue*, Zhang-qi Yin*, Luyan Sun*, “Perfect remote quantum state transfer in a superconducting qubit chain with parametrically tunable couplings“, Phys Rev. Applied 10, 054009 (2018)，arXiv:1806.03886. (被引用17次)
9. 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. (被引用24次)
10. Lei-ming Zhou, Ke-wen Xiao, Zhang-qi Yin, Jun Chen, Nan Zhao*, "Sensitivity of Displacement Detection for a Particle Levitated in the Doughnut Beam", Optics Letters  43, 4582 (2018), arXiv:1709.07177. (被引用1次)
11. Ke-Wen Xiao, Lei-Ming Zhou, Zhangqi Yin, and Nan Zhao, “Detection of Magnetic Field Gradient and Single Spin using Optically Levitated Nano-Particle in Vacuum”,  Commun. Theor. Phys. 70, 97 (2018).
12. 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. (被引用39次)
13. Markus Grassl, Linghang  Kong, Zhaohui Wei, Zhang-Qi Yin, Bei Zeng, "Quantum Error-Correcting Codes for Qudit Amplitude Damping", IEEE transactions on  Information Theory 64, 4674 (2018), arXiv:1509.06829. (被引用8次）
14. Kang Cai, Zi-wen Pan, Rui-xia Wang, Dong Ruan, Zhang-qi Yin*, Gui-lu Long*, “Single phonon source based on a giant polariton nonlinear effect”, Optics Letters 43, 1163 (2018), arXiv:1711.06835. Spotlight in OSA. (被引用6次)
15. Yi Huang, Tongcang Li, Zhang-qi Yin*, “Symmetry breaking dynamics of the finite-size Lipkin-Meshkov-Glick model near ground state”, Phys. Rev. A  97, 012115 (2018), arXiv:1709.07657. （被引用16次）
16. Tao Xin, Shilin Huang, Sirui Lu, Keren Li, Zhihuang Luo, Zhangqi Yin, Jun Li*, Dawei Lu*, Guilu Long*, Bei Zeng, "NMRCloudQ: A Quantum Cloud Experience on a Nuclear Magnetic Resonance Quantum Computer", Sci. Bull. 63, 17 (2018), arXiv:1710.03646. (被引用14次)
17. Rui-xia Wang, Kang cai, Zhang-qi Yin*, Gui-lu Long*, “Quantum memory and non-demolition measurement of single phonon state with nitrogen-vacancy centers ensemble”,  Optics Express 25, 30149 (2017), arXiv:1705.10954. (被引用4次)
18. 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. (被引用11次)
19. Junkai Dong, YiMing Chen, Da Xu*, Zhang-qi Yin*, “Greenberger-Horne-Zeilinger test for multi-dimension and arbitrary time nodes entangled histories”, Sci. Bull. 62, 1235 (2017), arXiv:1610.04296. (被引用3次)
20. Yue Ma, Thai M. Hoang, Ming Gong*, Tongcang Li*, and Zhang-qi Yin*, “Proposal for quantum many-body simulation and torsional matter-wave interferometry with a levitated nanodiamond”, Phys. Rev. A 96, 023827 (2017), arXiv:1611.05599.（被引用28次）
21. Ke-Wen Xiao, Nan Zhao, and Zhang-qi Yin*, “Bistability and squeezing the librational mode of an optically trapped nanoparticle”,  Phys. Rev. A 96, 013837 (2017), arXiv:1705.00114. (被引用6次）
22. Zhang-qi Yin*, and Zhaohui Wei*, Why quantum adiabatic computation and D-Wave computers are so attractive? Sci. Bull. 62, 741 (2017). (被引用7次)
23. Kang Cai, Rui-Xia Wang, Zhang-qi Yin*, Gui-Lu Long*, “The second order magnetic field gradient induced strong coupling between nitrogen-vacancy centers and a mechanical oscillator”,  Sci. China. Phys. Mech. Astron. 60, 070311 (2017), arXiv:1610.09922. (被引用12次)
24. Shengyan Liu, Tongcang Li*, Zhang-qi Yin*, “Coupling the librational and translational motion of a levitated nano-particle with an optical cavity”, Journal of the Optical Society of America B 34, C8 (2017), arXiv:1703.08645. (被引用10次).
25. Guanzhong Wang, Mingming Zhao, Yingchun Qin, Zhangqi Yin, Xiaoshun Jiang*, and Min Xiao, "Demonstration of an ultra-low threshold phonon laser with coupled microtoroid resonators in vacuum", Photonics Research 5, 73 (2017). (被引用11次)
26. Zhang-qi Yin*, Tongcang Li*, “Bringing quantum mechanics to life: from Schrodinger's cat to Schrodinger's microbe” (invited review), Contemporary Physics 58，119 (2017). (被引用13次)
27. Yue Ma, Zhang-qi Yin*,  Pu Huang, W. L. Yang, and Jiangfeng Du*, “Cooling a mechanical resonator to the quantum regime by heating it”, Phys. Rev. A 94, 053836 (2016), arXiv:1603.05807. (被引用16次)
28. Qizhe Hou, Wanli Yang*, Changyong Chen, and Zhangqi Yin*, “Generation of macroscopic Schrodinger cat state in diamond mechanical resonator”, Scientific Reports 6, 37542 (2016). (被引用5次)
29. Qizhe Hou, Wanli Yang*, Changyong Chen, Zhangqi Yin*, "Electromagnetically induced acoustic wave transparency in diamond mechanical resonator", Journal of the Optical Society of America B 33, 2242 (2016). (被引用6次)
30. Wan-lu Song, Wan-li Yang*, Zhang-qi Yin, Chang-yong Chen, and Mang Feng*, “Controllable quantum dynamics of inhomogeneous nitrogen-vacancy center ensembles coupled to superconducting resonators”, Scientific Reports 6, 33271 (2016). (被引用5次)
31. 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), arXiv:1605.03990. (被引用85次) ESI高被引
32. Yizhou Huang, Zhang-qi Yin* and W. L. Yang. “Simulating Topological Transition in a Non-Hermitian Quantum Walk with circuit QED”, Phys. Rev. A 94, 022302 (2016),  arXiv:1601.01774. （被引用7次）
33. Zheng-Yuan Xue, Zhang-Qi Yin*, Yan Chen, Z. D. Wang*, Shi-Liang Zhu*, "Topologically-protected quantum memory interfacing atomic and superconducting qubits", Sci. China. Phys. Mech. 59, 660301 (2016)，arXiv:1301.4139. (被引用8次).
34. Tongcang Li* and Zhang-Qi Yin*, “Quantum superposition, entanglement, and state teleportation of a microorganism on an electromechanical oscillator”, Sci. Bull. 61, 163 (2016), arXiv:1509.03763. (被引用101次）ESI高被引
35. Jing Qiu, Yang-Yang Wang, Zhang-Qi Yin, Mei Zhang, Qing Ai*, and Fu-Guo Deng;  “Quantum Zeno and Zeno-like effects in nitrogen vacancy center”, Sci. Rep. 5, 17615 (2015)， arXiv:1508.04560. (被引用8次)
36. Zhang-qi Yin, Zhao Nan, Tongcang Li, "Hybrid opto-mechanical systems with nitrogen-vacancy centers" (review), Sci. China. Phys. Mech. 58, 050303 (2015), arXiv:1501:00636. (被引用36次)
37. 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. (被引用48次）
38. Xian-Peng Zhang, Li-Tuo Shen, Zhang-Qi Yin, Huai-Zhi Wu, Zhen-Biao Yang, “Resonator-Assisted Quantum Bath Engineering of a Flux Qubit”,  Phys Rev. A 91, 013825 (2015), arXiv:1407.3337. （被引用4次）
39. 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 （被引用207次）ESI高被引
40. W. L. Song, Zhang-qi Yin, W. L. Yang*, Xiaobo Zhu, F. Zhou and M. Feng; “One-step generation of multipartite entanglement among nitrogen-vacancy center ensembles”, Sci Rep 5, 7755 (2015). （被引用20次）
41. Nan Zhao*, Zhang-qi Yin*, “Room temperature ultra-sensitive mass spectrometer via dynamic decoupling”, Phys. Rev. A 90, 042118 (2014), arXiv:1311.2266. (被引用33次)
42. Jian Zhou, Yong Hu, Zhang-qi Yin, Z. D. Wang, Shi-Liang Zhu, and Zheng-Yuan Xue, “High fidelity quantum state transfer in electromechanical system with intermediate coupling”, Sci. Rep. 4, 6237 (2014).（被引用25次）
43. Markus Grassl, Zhaohui Wei, Zhang-Qi Yin, and Bei Zeng, “Quantum Error-Correcting Codes for Amplitude Damping”, in IEEE International Symposium on Information Theory, 2014, pp. 906-910. （被引用6次）
44. Zhang-qi Yin, Zhen-biao Yang, (邀请综述), “Distributed quantum information processing in coupled cavity QED systems”, 安徽大学学报（自然科学版），2014 年1 月第38 卷第1 期第1-11页. (被引用1次）
45. Guangcun Shan, Zhang-qi Yin, Chan Hung Shek, Wei Huang*, "Single photon sources with single semiconductor quantum dots" （综述）, Frontiers of physics 9, 170 (2014). (被引用23次）
46. Zhang-qi Yin, Tongcang Li, Andrew Geraci, “Optomechanics of levitated dielectric particles” (邀请综述), Int. J. Mod. Phys. B 27, 1330018 (2013)，arXiv:1308.4503. 被MIT TechnologyReview 推荐。（被引用101次）
47. 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, 被PRA网站万花筒栏目选中展示。 (被引用150次).
48. 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. (被引用121次).被PRL选为封面论文并评述，被《Nature》选作研究亮点并评述，被NewScientists，PhysicsWorld，MIT TechnologyReview 数十家媒体广泛报道。Reply to comment: arXiv:1212.6959 (13 citations).
49. W. L. Yang*, Z. Q. Yin*, Q. Chen, C. Y. Chen, M. Feng*, "Two-mode squeezing of distant nitrogen-vacancy-center ensembles by manipulating the reservoir", Phys. Rev. A 85, 022324 (2012). （被引用32次）。
50. W. L. Yang, Z. Q. Yin*, Z. X. Chen, S. P. Kou, M. Feng*, and C. H. Oh*, "Quantum simulation of artificial Abelian gauge field using nitrogen-vacancy center ensembles coupled with superconducting resonators", Phys. Rev. A 86, 012307 (2012) arXiv:1204.1778. (被引用43次）,被PRA网站万花筒栏目选中展示。
51. W. L. Yang*, Z. Q. Yin, Z. Y. Xu, M. Feng*, and C. H. Oh*, "Quantum dynamics and quantum state transfer between separated nitrogen-vacancy centers embedded in photonic crystal cavities", Phys. Rev. A 84, 043849 (2011). （被引用55次）
52. W. L. Yang*, Y. Hu, Z. Q. Yin, Z. J. Deng, and M. Feng*, "Entanglement of Nitrogen-vacancy-center ensembles using transmission line resonators and a superconducting phase qubit", Phys. Rev. A 83, 022302 (2011). (被引用45次）
53. W. L. Yang*, Z. Q. Yin, Y. Hu, M. Feng*, and J. F. Du*, "High-fidelity quantum memory using nitrogen-vacancy center ensemble for hybrid quantum computation", Phys. Rev. A 84, 010301(R) (2011), arXiv:1106.2909.（被引用80次）
54. Zhang-qi Yin*, Tongcang Li, and M. Feng*, "Three-dimensional cooling and detecting of a nanosphere with a single cavity", Phys. Rev. A 83, 013816 (2011),  arXiv:1007.0827.（被引用48次）。
55. Zhe-xuan Gong*, Zhang-qi Yin, and Lu-ming Duan, "Dynamics of the Overhauser Field under nuclear spin diffusion in a quantum dot",  New J. Phys. 13, 033036 (2011),  arXiv:0912.4322, (被引用16次).
56. S. R. J. Patrick, Yang Yang, Zhang-qi Yin, and Fu-li Li*, "Entangling two multiatom clusters via a single-mode thermal field"，Int. J. Mod. Phys. B 25, 2681  (2011). （被引用2次）
57. W. L. Yang*, Z. Q. Yin, Z. Y. Xu, M. Feng*, and J. F. Du*, "One-step implementation of multi-qubit conditional phase gating with nitrogen-vacancy centers coupled to a high-Q silica microsphere cavity", Appl. Phys. Lett. 96, 241113 (2010),  arXiv:1006.0278. 被《ScienceDaily》、《PhysOrg》等媒体报道.（被引用108次）。
58. Zhang-qi Yin*, "Phase noise and laser cooling limits of opto-mechanical oscillators", Phys. Rev. A 80, 033821 (2009), arXiv:0906.1379. (被引用30次）。
59. Zhang-qi Yin* and Yong-jian Han, "Generating EPR beams in a cavity optomechanical system", Phys. Rev. A 79, 024301 (2009), arXiv:0811.0424. (被引用40次)
60. Zhang-qi Yin, Fu-li Li*, and Peng Peng, "Implementation of holonomic quantum computation through engineering and manipulating environment", Phys. Rev. A 76, 062311 (2007), arXiv:0704.0482. (被引用31次)
61. 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), arXiv:quant-ph/0606152 (被引用228次). ESI高被引论文
62. Fu-li Li*, Peng Peng, and Zhang-qi Yin, "Preparing entangled states of two atoms through the intensity-dependent interaction with the two-mode squeezed vacuum", J. Mod. Opt. 53, 2055 (2006). (被引用3次)

预印本与未发表论文

1. Qihao Guo, Yuanyuan Zhao, Guoyong Xiang, Zhang-qi Yin*, Bei Zeng*, “Realizing two-qubit detected-jump code in both photonic system and IBM Q”, in preparing.
2. Yi Huang, Anda Xiong, Tongcang Li, Zhang-qi Yin*, “Effective time crystal based on a levitated system”, in preparing.
3. Ke-wen Xiao, Anda Xiong, Nan Zhao, Zhang-qi Yin*, “Sympathetic cooling translational mode of an optically trapped nanoparticle through librational mode”, arXiv:1805.02469.
4. Xing-yu Gao, Zhang-qi Yin*, Tongcang Li*, “High-speed quantum transducer with a single-photon emitter in a 2D resonator”, arXiv:1712.09245. (被引用3次)
5. Qidong Xu, W. L. Yang*, Zhang-qi Yin*, “Phonon induced two-mode squeezing of nitrogen-vacancy-center ensembles”, arXiv:1512.08605. (被引用2次)
6. Xian-Peng Zhang, Li-Tuo Shen, Zhang-Qi Yin, Luyan Sun, Huai-Zhi Wu, and Zhen-Biao Yang*, “Multi-Resonator-Assisted Multi-Qubit Resetting in a Network”, arXiv:1604.08393.
7. Li-Bo Chen, Wen Yang, Zhang-Qi Yin, “Heralded entanglement of two distant quantum dot spins via optical interference”, arXiv:1505.04476 （被引用1次）

专著章节

1. Zhang-qi Yin, Yong-chun Liu and Yun-feng Xiao, Nonclassical light sources and frequency converters with integrated opto-mechanical systems, book chapter in 'Integrated nanophotonic resonators: fundamentals, devices and applications', Pan Stanford Publishing Pte. Ltd. Singapore , 2015.

会议报告

• "Levitated optomechanics for precise measurement",in IQC-China Conference on Quantum Technologies, 10.01-10.07 2018, Waterloo, Canada, invited talk
• "Quantum precise measurement in levitated optomechanics", Workshop on microcavity photonics 2018, Dalian City, Tutorial talk.
• “Single phonon source and quantum non-demolition detector based on NV centers”, The 8th International Multidisciplinary Conference on Optofluidics 2018, 上海，2018年8月6日-8日，邀请报告。
•  "Levitated optomechanics for precise measurement", Optics Frontier—The 10th International Conference on Information Optics and Photonics (CIOP 2018), 07.08-07.11, 2018, invited talk.
• “有效时间晶体“，第四届全国青年量子物理研讨会，2018年7月6日至8日，浙江杭州，邀请报告。
• "Entanglement of IBM 16-qubit superconducting quantum processor"，The 4th Conference on Condensed Matter Physics (CCMP-2018), 07.05-07.08, 2018, Shanghai, invited talk
• “Quantum many-body simulation and torsional matter-wave interferometry with  a levitated nanodiamond”, CCMP2017 会议，2017年6月24日至27日，上海，邀请报告。
• “Torsional optomechanics and quantum simulation of an optical levitated nano-diamond”, ICQFT 2016, 2016年11月12日到17日，上海，口头报告。
• "Quantum simulation and matter wave interference in an optically trapped nano-diamond"， Quantum Engineering of Levitated Systems 2016，西班牙贝纳斯克，2016年9月25日到10月1日，邀请报告。
• "Cooling mechenical resonator to quantum regime by heating it", PTES2016，2016年5月23-28日，西安，邀请报告。
• "Quantum network of superconducting qubits through opto-mechanical interface"，第四届全国原子分子光物理青年科学家论坛，2014年10月10-12日，山西太原（口头报告）。
• “Spatial superpostions of levitated nano diamond”, 量子光学与量子信息研讨会（2014）, 2014年4月7日-9日,北京计算科学研究中心(口头报告)。
• “Optomechanical quantum interface for superconducting qubits”, Workshop on cavity optomechanics and applications (2013)，2013年12月28-29日，北京计算科学研究中心（口头报告）。
• “Raising Schrödinger's cat with a levitated nanodiamond ”, QDiamond13: Quantum Information & Quantum Sensing, 2013年10月13-17日，安徽黄山（口头报告）。
• “Spatial superpostions of levitated nanoparticles with internal electron spins”, 第七届冷原子物理和量子信息 青年学者学术讨论会，2013年7月27-31日 安徽∙屯溪 （邀请报告）。
• “Raising Schrödinger's cat with a levitated nanodiamond ”， Workshop on Diamond − Spintronics, Photonics, Bio-applications，2013年4月27-29日，香港（张贴报告）。
• “Space-time crystals of trapped ions”, The International Conference on Quantum Foundation and Technology: Frontier and Future, 2012年8月25-30日，敦煌（口头报告）。
• 尹璋琦，“Simulating gauge field with Nitrogen-vacancy centers ensembles coupled with superconducting resonators array”，第五届国际固态量子信息研讨会，2011年12月11-13日，香港（张贴报告）。
• 尹璋琦，“Generating EPR lights and detecting motions in optomechanical systems”, 全国量子操纵与量子相干器件物理高级学术研讨会, 2010年6月18-24日, 广州（口头报告）。
• 尹璋琦，李福利，"Simple Schemes of CQED for Realizing Swap, Entangling and CNOT Quantum Gates"，International Conference on Quantum Optics，2005年12月17-20日，香港 (张贴报告) 。

邀请报告

• "Levitated optomechanics", WIPM in Wuhan, CAS, 2018.05.11
• Invited to visit Taiwan University and give talks in Taiwan University and Taiwan Tsinghua University, 2016.08
• “Teleporting memories between remote microorganisms”, in Shanghai branch, National Laboratory for Physical Sciences at Microscale, USTC, 2016.01.25
• "Schrödinger's bacterium", in Spin Magnetic Resonance Lab, USTC, 2015.10.23
• “Dancing on the quantum trampoline, bacterium”, in the General Relativity Seminar，中科院理论物理所，2015年9月30日.
• “Quantum information processing and precise measurement with NV centers”in Insitude of Physics, CAS，2015年4月22日
• “Optically trapped nanodiamond”, 西安交通大学应用物理系, 2014.06.18.
• “悬浮纳米粒子：从薛定谔猫到时空晶体”，福州大学，2014年1月3日；福建师范大学，2014年1月4日。
• “Raising Schrödinger's cat with a levitated nanodiamond ”,中科院武汉物理与数学研究所，2013年9月26日。
• “Space-time crystal of trapped ions”，北京大学量子材料中心，2013年9月4日。
• “Space-time crystal of trapped ions”,北京计算科学研究中心，2013年1月23日。
• “Space-time crystal of trapped ions”, 中科院武汉物理与数学研究所，2012年11月27日。
• "Quantum information and simulation via Nitrogen-vacancy centers ensembles"，清华大学交叉信息院，2011年11月22日。
• "Quantum information and quantum simulation with NV centers" 和 "3D Cooling and detecting of nanosphere via single cavity", 西安交通大学应用物理系，2011年8月7日。
• "腔QED和光机械系统中的量子信息过程"，中科院武汉物理与数学研究所，2009年11月9日。
• "Quantum phenomenon in opto-mechanical system", 北京大学人工微结构与介观物理国家重点实验室微纳光子学研究组，2009年9月25日。

证明人

    李福利教授，西安交通大学应用物理系. 电子邮箱：flli@mail.xjtu.edu.cn. 电话：+86 29 82668118

    段路明教授，清华大学交叉信息研究院. 电子邮箱: lmduan@tsinghua.edu.cn