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苏石磊
时间:2023-07-12   阅读次数:





苏石磊,副教授,硕士生导师

电子邮箱:slsu@zzu.edu.cn


基本信息

苏石磊,博士,19882月生,河南尉氏人,郑州大学物理学院光电信息科学研究所副教授,硕士生导师。量子信息与量子模拟课题组长。


学术头衔/兼职

河南省优秀青年科学基金获得者。首届CCF量子计算大会量子计算支撑技术论坛主席。第八届河南省光学学会理事。担任包括 PRLPRX QuantumPR AppliedPRAAPLOLOE等数十种期刊审稿人。


研究方向

量子计算与量子信息、里德堡原子、几何量子计算、量子模拟


教育与工作简历

20201-至今,郑州大学物理学院,副教授

20191-201912月,郑州大学物理学院,直聘副教授

20189-201811月,丹麦,Aarhus University,受邀访问学者

20167-201812月,郑州大学物理学院,讲师

20139-20167月,哈尔滨工业大学,物理学,博士

20109-20136月,延边大学,光学,硕士

20068-20106月,延边大学,光信息科学与技术,学士


所获荣誉

河南省优秀青年科学基金获得者

河南省优秀学士学位论文指导教师

参加“郑州大学-华中科技大学”青年骨干教师赋能培训并获培训结业证书


指导本科生情况

1. 指导4名本科生分别以第一作者在Phys. Rev. A 等期刊发表SCI论文4篇,其中3人分别保送至中国科学技术大学、上海交通大学、南京大学;1人赴国外攻读学位。

2. 指导本科生大创项目2项。


科研成果

主要研究领域为里德堡原子量子信息处理、基于优化控制理论的几何量子计算、耗散动力学等。经过十余年的历练与学术积累,主要研究成果简述如下:

1. 提出并实验验证了非绝热非循环几何量子计算理论。

2. 提出了耗散调控理论,并基于此理论验证了量子物理中耗散-时间不确定关系。该研究被PRL选为 Editor's Suggestions, 并被美国物理学会(APS)新闻网站 Focus 专栏报道;同时被欧洲物理学会(IOP)新闻网站 PhysicsWorld 报道,图注以:新的不确定关系,时间-耗散率不确定关系已经被确立进行报道。

3. 提出了可以同时利用多个耗散制备量子纠缠的理论;给出了一步实现多体里德堡反阻塞的严格条件;提出基于一阶动力学的快速分步里德堡反阻塞机制并被实验验证;提出了并行路径几何量子计算概念。

以上研究成果主要以科研项目与论文发表形式体现,具体列于下:

一、主持科研项目

国家自然科学基金项目3项:

1. 国家自然科学基金面上项目:基于非绝热非循环过程和优化控制的里德堡几何量子计算研究(批准号:12274376),55万;

2. 国家自然科学基金青年项目:里德堡原子系统中的新物理及其在量子信息中的应用(批准号:11804308),27万;

3. 国家自然科学基金理论物理专项:在腔QED系统中利用耗散过程实现量子纠缠态(批准号:11747096),5万。

省部及其它基金资助项目5项:

1. 河南省自然科学优青基金项目:囚禁体系几何量子计算研究(批准号:232300421075),25万;

2. 河南省重大科技专项子课题:超导量子芯片设计与制备关键技术研究(批准号:221100210400),150万;

3. 博士后科学基金特别资助项目:里德堡相互作用诱导的新物理及其在量子信息中的应用(批准号:2018T110735),15万;

4. 博士后科学基金面上项目:新型里德伯反阻塞机制及其在量子信息中的应用(批准号:2017M612411),5万;

5. 河南省自然科学基金面上项目:利用含时调控技术实现高性能里德堡量子逻辑门(批准号:202300410481),10万;

6. 河南省教育厅项目:基于里德堡反阻塞机制的量子信息处理理论研究(批准号:18A140009),5万。

二、代表性论文发表

苏石磊副教授至今在PRL, PR Applied, PR Research等权威物理类期刊发表SCI收录论文110余篇。其中Phys. Rev. 系列41 篇,多篇论文被 PRLEPLCPBCPL选为高亮论文,ESI高被引论文1篇。论文被引 1700 余次,H-index22

近年来主要代表性论文如下:

1. L.-L. Yan, J.-W. Zhang, M.-R. Yun, J.-C. Li, G.-Y. Ding, J.-F. Wei, J.-T. Bu, B. Wang, L. Chen, S.-L. Su*, F. Zhou*, Y. Jia, E.-J. Liang, and M. Feng*, Experimental Verification of Dissipation-Time Uncertainty Relation. Phys. Rev. Lett. 128, 050603 (2022).[编辑推荐、物理特色]


2. J. W. Zhang, L.-L. Yan, J. C. Li, G. Y. Ding, J. T. Bu, L. Chen, S.-L. Su*, F. Zhou *, M. Feng*, Single-Atom Verification of the Noise-Resilient and Fast Characteristics of Universal Nonadiabatic Noncyclic Geometric Quantum Gates. Phys. Rev. Lett. 127, 030502 (2021).


3. Y. Zhang, Q.-L. Wu, S.-L. Su, Q. Lou and C.-X. Shan, K. Mølmer, Cavity Quantum Electrodynamics Effects with Nitrogen-Vacancy Center Spins Coupled to Room Temperature Microwave Resonators. Phys. Rev. Lett. 128, 253601 (2022).


4. Bao-Jie Liu, Lei-Lei Yan, Y Zhang, M-H Yung, Shi-Lei Su*, Chong Xin Shan, Decoherence-suppressed nonadiabatic holonomic quantum computation. Phys. Rev. Research 5, 013059 (2023). 提出抑制退相干的和乐量子计算,并以金刚石NV色心量子系统为例进行理论检验。


5. S.-L. Su , Li-Na Sun, B.-J. Liu, L.-L. Yan, M.-H. Yung, W. Li, and M. Feng, Rabi- and Blockade-Error-Resilient All-Geometric Rydberg Quantum Gates. Phys. Rev. Applied 19, 044007 (2023).


6. X.-Y. Zhu, B.-L. Fang,* Y.-H. Li, F.-Q. Guo, E.-J. Liang,* L.-L. Yan,* and S.-L. Su*, Simple construction of Rydberg quantum cloning machines via nonadiabatic geometric quantum operations, Phys. Rev. A 106, 052419 (2022).


7. Bing-Bing Liu, Zheng Shan*, M.-R. Yun, D.-Y. Wang, B.-J. Liu, L.-L. Yan*, M. Feng, and S.-L. Su*, Robust three-qubit search algorithm in Rydberg atoms via geometric control, Phys. Rev. A 106, 052610 (2022).


8. Ji-Ze Xu, Li-Na Sun, J.-F. Wei, Y.-L. Du, Ronghui Luo, Lei-Lei Yan*, M. Feng, and Shi-Lei Su*, Two-Qubit Geometric Gates Based on Ground-State Blockade of Rydberg Atoms. Chin. Phys. Lett. 39 (9): 090301 (2022). [编辑推荐] 本科生一作


9. Jia-Wei Zhang, Jian-Qi Zhang, Ge-Yi Ding, Jia-Chong Li, Jin-Tao Bu, Bin Wang, Lei-Lei Yan, Shi-Lei Su, Liang Chen, Franco Nori, Sahin Ozdemir, Fei Zhou, Hui Jing, and Mang Feng*, Dynamical control of quantum heat engines using exceptional points, Nat. Comm. 13, 6225 (2022).


10. Dongmin Yu, Han Wang, Jin-ming Liu, Shi-Lei Su*, Jing Qian*, and Weiping Zhang, Multiqubit Toffoli gates and optimal geometry with Rydberg atoms, Phys. Rev. Applied 18, 034072 (2022).


11. J.-F. Wei, Fu-Qiang Guo, D.-Y. Wang, Y. Jia, L.-L, Yan*, M. Feng*, S.-L. Su*, Fast multiqubit Rydberg geometric fan-out gates with optimal control technology. Phys. Rev. A 105, 042404 (2022).


12. Li-Na Sun, F.-Q. Guo, Zheng Shan, M. Feng, L.-L. Yan*, and Shi-Lei Su*, One-step implementation of Rydberg nonadiabatic noncyclic geometric quantum computation in decoherence-free subspaces. Phys. Rev. A 105, 062602 (2022).


13. Lv-Yun Wang, Fu-Qiang Guo, S.-L. Su*, Chong-Xin Shan*, M. Feng, E.-J. Liang, and L.-L. Yan*, Rapid ground-state cooling of a solid-state nanoparticle assisted by a magnetic-field gradient. Phys. Rev. A 105, 053124 (2022).


14. L. Chen, X.-M. Xiu, L. Dong, N.-N. Liu, C.-P. Shen, S. Zhang, S. Chen*, and S.-L. Su, Direct conversion of Greenberger-Horne-Zeilinger state to Knill-Laflflamme-Milburn state in Decoherence-Free Subspace. Opt. Lett. 47, 2262 (2022).


15. M.-R. Yun, Fu-Qiang Guo, L.-L, Yan*, E. Liang, Y. Zhang, S.-L. Su*, C.-X. Shan and Y. Jia*, Parallel-path implementation of nonadiabatic geometric quantum gates in a decoherence-free subspace with nitrogen-vacancy centers. Phys. Rev. A 105, 012611 (2022).


16. Q. He, F. Badshah, Y. Song, L. Wang, Erjun Liang, S.-L. Su, Force sensing and cooling for the mechanical membrane in a hybrid optomechanical system. Phys. Rev. A 105, 013503 (2022).


17. Jian-Qi Zhang, Jing-Xin Liu, Hui-Lai Zhang, Zhi-Rui Gong, Shuo Zhang, Lei-Lei Yan, Shi-Lei Su*, Hui Jing*, Mang Feng*, Topological optomechanical amplifier in synthetic PT-symmetry. Nanophotonics 11, 1149 (2022).


18. Y. He, J.-X. Liu, F.-Q. Guo, L.-L. Yan, R.-H. Luo, E. Liang, S.-L. Su*, M. Feng, Multiple-qubit Rydberg quantum logic gate via dressed-state scheme. Opt. Comm. 505, 127500 (2022). 本科生一作


19. Jin-Lei Wu, Shuai Tang, Yan Wang, Xiao-Sai Wang, Jin-Xuan Han, Cheng Lv, Jie Song*, Shi-Lei Su*, Yan Xia, and Yong-Yuan Jiang*, Unidirectional acoustic metamaterials based on nonadiabatic holonomic quantum transformations, Sci. China Phys. Mech. Astron. 65, 220311 (2022).


20. Zhao Jin, Wei-Jiang Gong, Ai-Dong Zhu, Shou Zhang, Yang Qi, and Shi-Lei Su*, Dissipative preparation of qutrit entanglement via periodically modulated Rydberg double antiblockade. Opt. Exp. 29 10117 (2021).


21. S.-L. Su and W. Li, Dipole–dipole–interaction–driven antiblockade of two Rydberg atoms, Phys. Rev. A, 104, 033716 (2021).


22. Jin-Lei Wu, Yan Wang, Jin-Xuan Han, Yongyuan Jiang, Jie Song*, Yan Xia, Shi-Lei Su*, and Weibin Li*, Systematic-error-tolerant multiqubit holonomic entangling gates, Phys. Rev. Applied 16, 064031 (2021).


23. Li-Na Sun, L.-L. Yan*, S.-L. Su*, Y. Jia, One-step implementation of time-optimal-control three-qubit nonadiabatic holonomic controlled gates in Rydberg atoms, Phys. Rev. Applied 16, 064040 (2021).


24. Yuan-Sheng Wang, Bao-Jie Liu, Shi-Lei Su and Man-Hong Yung*, Error-resilient Floquet geometric quantum computation, Phys. Rev. Research 3, 033010 (2021).


25. Meng Li, Fu-Qiang Guo, Z. Jin, L.-L. Yan*, Erjun Liang*, and Shi-Lei Su*, Multiple-qubit CkU quantum gate of Rydberg atoms via shortcut-to-adiabaticity and optimized geometric quantum operation. Phys. Rev. A 103 062607 (2021).


26. Ri-Hua Zheng, Yang Xiao, S.-L. Su*, Ye-Hong Chen, Zhi-Cheng Shi, Jie Song, Yan Xia*, and Shi-Biao Zheng, Fast and dephasing-tolerant preparation of steady Knill-Laflamme-Milburn states via dissipative Rydberg pumping. Phys. Rev. A 103, 052402 (2021).


27. M. Yun, F.-Q. Guo, M. Li, L.-L. Yan*, M. Feng*, Y.-X. Li*, and S.-L. Su. Distributed geometric quantum computation based on the optimized-control-technique in cavity-atom system via exchanging virtual photons. Opt. Exp. 29(6), 8737-8750 (2021).


28. Jin-Lei Wu, Yan Wang, Jin-Xuan Han, Shi-Lei Su et al. Resilient quantum gates on periodically driven Rydberg atoms. Phys. Rev. A 103, 012601 (2021).


29. F.-Q. Guo, J.-L. Wu, X.-Y. Zhu, Z. Jin, Y. Zeng, S. Zhang, L.-L. Yan*, M. Feng*, and S.-L. Su*, Complete and nondestructive distinguishment of many-body Rydberg entanglement via robust geometric quantum operations. Phys. Rev. A 102, 062410 (2020).


30. Jin-Lei Wu, Yan Wang, Shi-Lei Su, Yan Xia, Yongyuan Jiang, and Jie Song, Discrimination of enantiomers through quantum interference and quantum Zeno effect. Opt. Exp. 28 33475 (2020).


31. Ri-Hua Zheng, Yi-Hao Kang, S.-L. Su*, J. Song, and Y. Xia*, Robust and high-fidelity nondestructive Rydberg parity meter, Phys. Rev. A 102, 012609 (2020).


32. C. Y. Guo, L.-L. Yan, S. Zhang, S.-L. Su* and W. Li, Optimized geometric quantum computation with a mesoscopic ensemble of Rydberg atoms. Phys. Rev. A 102, 042607 (2020). 本科生一作


33. B. J. Liu, S.-L. Su* and M. H. Yung, Nonadiabatic Noncyclic Geometric Quantum Computation in Rydberg atoms. Phys. Rev. Research 2, 043130 (2020).


34. Zhichao Liu, Liang Chen*, Ji Li , Hang Zhang, Chengbin Li, Fei Zhou, S.-L. Su, Leilei Yan* and Mang Feng*, Phys. Rev. A 102, 033106 (2020).


35. S.-L. Su, F.-Q. Guo, J.-L. Wu, Z. Jin, X. Q. Shao and S. Zhang, Rydberg antiblockade regimes: Dynamics and applications. EPL, 131 53001 (2020). 受邀Perspective论文


36. J. W. Zhang, K. Rehan, M. Li, J. C. Li, L. Chen, S.-L. Su, L.-L. Yan, F. Zhou, and M. Feng, Single-atom verification of the information-theoretical bound of irreversibility at the quantum level, Phys. Rev. Research 2, 033082 (2020).


37. Rui Li, Dongmin Yu, S.-L. Su*, and Jing Qian*, Periodically driven facilitated high-efficiency dissipative entanglement with Rydberg atoms. Phys. Rev. A 101 042328 (2020).


38. Jin-Lei Wu, Yan Wang, Jin-Xuan Han, Cong Wang, S.-L. Su, Yan Xia, Yongyuan Jiang, and Jie Song, Two-Path Interference for Enantiomer-Selective State Transfer of Chiral Molecules. Phys. Rev. Applied 13 044021 (2020).


39. Jin-Lei Wu, S.-L. Su, Y. Wang, J. Song et al., Effective Rabi dynamics of Rydberg atoms and robust high-fidelity quantum gates with a resonant amplitude-modulation field. Opt. Lett. 45 1200 (2020).


40. Jing-Xin Liu, Jun-Yao Ye, Lei-Lei Yan, S.-L. Su*, and M. Feng*, Distributed quantum information processing via single atom driving, J. Phys. B 53 035503 (2020). 本科生一作


41. S. -L. Su et al, Nondestructive Rydberg parity meter and its applications. Phys. Rev. A 101 012347 (2020). 2021年度ESI高被引


42. Zhao Jin, S.-L. Su*, Shou Zhang. Preparation of steady entangled state of two NV centers via simultaneously utilizing two dissipative factors. Phys. Rev. A 100 052332 (2019).


43. Jin-Lei Wu, Yan Wang, Jie Song, Yan Xia, S.-L. Su, and Yong-Yuan Jiang, Robust and highly efficient discrimination of chiral molecules through three-mode parallel paths. Phys. Rev. A 100, 043413 (2019).


44. L.-L. Yan, S.-L. Su and M. Feng, Analytical investigation of one-dimensional Doppler cooling of trapped ions with Lambda -type configuration. Phys. Rev. A 100, 033418 (2019).


45. J. L. Wu and S. L. Su*, Universal speeded-up adiabatic geometric quantum computation in three-level systems via counterdiabatic driving, J. Phys. A 52, 335301 (2019). JPA 2019-20221%论文


46. C. P. Shen J. L. Wu, S. L. Su*, and E. J. Liang, Construction of robust Rydberg controlled-phase gates, Opt. Lett. 44 2036 (2019).


47. L. L. Yan, S. L. Su, Q. Z. Hou, W. L. Yang*, and M. Feng. Macroscopically distinct superposition in a spin ensemble coupled to superconducting flux-qubits. Opt. Exp. 27 377 (2019).


48. S.-L. Su et al. One-step construction of the multiple-qubit Rydberg controlled-PHASE gate. Phys. Rev. A 98, 032306 (2018).


49. H. Z. Shen, S.-L. Su et al. Non-Markovian quantum Brownian motion in one dimension in electric fields. Phys. Rev. A 97, 042121 (2018).


50. S.-L. Su et al. Applications of the modified Rydberg antiblockade regime with simultaneous driving. Phys. Rev. A 96 042335 (2017).


51. S.-L. Su et al. Fast Rydberg antiblockade regime and its applications in quantum logic gates. Phys. Rev. A 95 022319 (2017).


52. H.Z. Shen, D. X. Li, S.-L. Su et al. Exact non-Markovian dynamics of qubits coupled to two interacting environments. Phys. Rev. A 96 033805 (2017).


53. Z. Jin, S.-L. Su et al. Dissipative preparation of distributed steady entanglement: an approach of unilateral qubit driving. Opt. Exp. 25, 88 (2017).


54. S.-L. Su et al. One-step implementation of Rydberg-Rydberg interaction gate. Phys. Rev. A 93 012306 (2016).


55. S.-L. Su et al. Simplified scheme for entanglement preparation with Rydberg pumping via dissipation. Phys. Rev. A 92 022328 (2015).


56. S.-L. Su et al. Scheme for entanglement generation in an atom-cavity system via dissipation. Phys. Rev. A 90 054302 (2014).


57. S.-L. Su et al. Preparation of three-dimensional entanglement for distant atoms in coupled cavities via atomic spontaneous emission and cavity decay. Sci. Rep. 4 7566 (2014).


58. C. Song, S.-L.Su et al. Generation of tree-type three-dimensional entangled states via adiabatic passage. Phys. Rev. A 93, 062321 (2016).


59. Y. Liang, Q.-C Wu, S.-L Su et al, Shortcuts to adiabatic passage for multiqubit controlled-phase gate. Phys. Rev. A 91 032304 (2015).


60. Y. Liang, S.-L. Su et al, Adiabatic passage for three-dimensional entanglement generation through quantum Zeno dynamics. Opt. Express 23, 5064 (2015).

 

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