北京师范大学物理与天文学院

石锦卫

职称：教授

职务：应用光学重点实验室副主任

学历：博士

专业：光学

电话：010-58807601

办公室：北京师范大学科技楼，北京市海淀区新街口外大街19号

个人主页：

邮箱： shijinwei@bnu.edu.cn

邮编： 100875

传真：

教育经历

2005.9∼2008.7北京师范大学物理学系光学，理学博士

2003.9∼2005.7北京师范大学物理学系光学，理学硕士

1999.9∼2003.7北京师范大学物理学系，理学学士

工作经历

2019.8∼至今任北京师范大学物理学系教授

2014.9∼2019.8任北京师范大学物理学系副教授

2016.2∼2016.8台湾国立清华大学访问学者

2011.9∼2013.1美国University of Texas at Austin 访问学者

2008.8∼2014.9任北京师范大学物理学系讲师

学术兼职

应用光学北京市重点实验室副主任

中国光学学会全息与光信息处理专业委员会委员

1. Guoxia Yang and Jiayi Zhang and Siyan Jiang and Anwen Jiang and Chenying Huang and Yihe Li and Haojie Li and Xiaoran Zhang and Dahe Liu and Jinwei Shi*. Decoupled-subspace-induced flat bands in a photonic superlattice, Physical Review Letters, 2026, accepted.

2. Haojie Li, Jiayi Zhang, Guoxia Yang, Xiaofei Han, Huiyuan Yu, Yihe Li, Liping Zhang, Xiaolu Ge, Benyi Wang, Zhongsheng Man, Wei Zhang*, Jinwei Shi*. Near-perfect optical chirality enabled by gain modulated Born–Kuhn-type metasurfaces, Photonics Research, 2026, 14 (6), 2532-2540. (IF7.2)

3. Haojie Li*, Jiayi Zhang, Guoxia Yang, Huiyuan Yu, Yihe Li, Anwen Jiang, Qianwen Jia, Xiaolu Ge, Liping Zhang, Zhongsheng Man, Jinwei Shi*. Chiral response enhancement and all-optical chirality logic gates based on super chiral exceptional point, Optics Express, 2026, 34 (4), 6276-6286.

4. Qianwen Jia, Guoxia Yang, Anwen Jiang, Jiayi Zhang, Chenying Huang, Siyan Jiang, Yihe Li, Dahe Liu, Jinwei Shi*. Multiple quasi-BICs in bilayer metasurface, Chinese Physics B, 2025, in publication.

5. Qianwen Jia, Junhong Deng, Anwen Jiang, Guoxia Yang, Fengzhao Cao, Min Ni, Jiayi Zhang, Yihe Li, Haojie Li, Dahe Liu, Guixin Li, and Jinwei Shi*. Reusable high-Q plasmonic metasurface, Photonics Research, 2025, 13 (4), 1010-1020. (IF7.2)

6. Hao Li, Guoxia Yang, Anwen Jiang, Min Ni, Qianwen Jia, Fengzhao Cao, Jiayi Zhang, Bokun Lyu, Dahe Liu, Jinwei Shi*. Manifestation of super chiral exceptional points in a plasmonic metasurface. Photonics Research, 2024, 12 (12), 2863-2872. (IF7.2)

7. Haojie Li,Qianwen Jia, Guoxia Yang, Anwen Jiang, Min Ni, Fengzhao Cao, Bokun Lyu, DaheLiu, and Jinwei Shi*. Nonlocal Metasurface with Chiral Exceptional Points in Telecom-Band, Nano Letters, 2024, 24(6): 2087-2093. (IF 10.8)

8. Bokun Lyu†, YangLi†, QianwenJia, Haojie Li, Guoxia Yang, Fengzhao Cao, Supeng Kou, Dahe Liu,Tun Cao, GuixinLi*, and Jinwei Shi*. Manipulating the chirality of Moiré metasurface by symmetry breaking. Laser& PhotonicsReviews, 2201004 (2023). (IF 11)

9. Li, Haojie; Jia,Qianwen; Lyu,Bokun; Cao, Fengzhao; Yang, Guoxia; Liu, Dahe; Shi, Jinwei*. Parity-time symmetry breaking optical nanocircuit. Optics Express 31(9) 14986-14996 (2023).

10. Bokun Lyu(吕博昆), Haojie Li(李昊杰), Qianwen Jia(贾倩文), Guoxia Yang(杨国霞), Fengzhao Cao(曹凤朝), Dahe Liu(刘大禾), and Jinwei Shi(石锦卫)*. Moiré Metasurface with Triple-BandNear-Perfect Chirality. Chin. Phys. Lett. 40 054202 (2023).

11. Fengzhao Cao, MimiZhou,Chang-Wei Cheng, Haojie Li, Qianwen Jia, Anwen Jiang, Bokun Lyu, DaheLiu,Dezhuan Han, Shangjr Gwo, Jinwei Shi*. Interaction of plasmonic bound states inthe continuum. Photonics Research,11(5), 724-731 (2023). (IF 7.2)

12. J Wang, B Lv, DLiu, W Gong, JShi*. Efficient four-wave mixing based on multiple plasmonic resonance. Optics Letters46 (18), 4522-4525, 2021.

13. Y Ding, C Wei, HSu, S Sun, ZTang, Z Wang, G Li, D Liu, S Gwo, Junfeng Dai*, JinweiShi*. Second Harmonic Generation Covering the Entire Visible Range from a2D Material–Plasmon Hybrid Metasurface. Advanced Optical Materials 9 (16), 2100625, 2021. (IF 9.0)

14. 曹凤朝;吕博昆;丁宇峰;石锦卫*, 一维等离激元晶格中的能带结构调控, 人工晶体学报 2021-07-08

15. Chun-Yuan Wang,Yungang Sang,Xinyue Yang, Soniya S Raja, Chang-Wei Cheng, Haozhi Li, YufengDing, ShuoyanSun, Hyeyoung Ahn, Chih-Kang Shih*, Shangjr Gwo*, JinweiShi*, Engineering Giant Rabi Splitting via Strong Coupling between Localized and Propagating Plasmon Modes on Metal Surface Lattices: Observation of √N Scaling rule, Nanoletters,2021, 21, 1, 605-611 (IF10.8)

16. Shuoyan Sun, YufengDing, HaozhiLi, Peng Hu, Chang-Wei Cheng, Yungang Sang, Fengzhao Cao, Yue Hu,Andrea Alù,Dahe Liu, Zhaona Wang, Shangjr Gwo*, Dezhuan Han*, JinweiShi*, Tunable plasmonic bound states in the continuum in the visible range, Physical Review B, 2021, 103, 4, 045416

17. Yungang Sang,Chun-Yuan Wang,Soniya S Raja, Chang-Wei Cheng, Chiao-Tzu Huang, Chun-An Chen,Xin-Quan Zhang,Hyeyoung Ahn, Chih-Kang Shih, Yi-Hsien Lee, Jinwei Shi, ShangjrGwo*, Tuning ofTwo-Dimensional Plasmon–Exciton Coupling in Full Parameter Space: A PolaritonicNon-Hermitian System, Nano Letters, 2021, 21, 6, 2596-2602 (IF10.8)

18. Hu Yue, CaoFeng-Zhao, DongRen-Jing, Hao Chen-Yue, Liu He, Shi Jin-Wei*, Analysis of stability catastrophe of confocal cavity, ACTAPHYSICA SINICA （物理学报）, 2020,69,22, 224202

19. Sun, L.; Wang, C.-Y.; Krasnok,A.; Choi, J.; Shi, J.; Gomez-Diaz, J. S.; Zepeda, A.; Gwo, S.;Shih, C.-K.;Alù*, A.; Li, X.*, Separation of valley excitons in a MoS2monolayer using a subwavelength asymmetric groove array. Nature Photonics 2019, 13 (3), 180-184.

20. Shi, J.; Liang,W.-Y.; Raja, S.S.; Sang, Y.; Zhang, X.-Q.; Chen, C.-A.; Wang, Y.; Yang, X.;Lee, Y.-H.*; Ahn,H*.; Gwo, S*. Plasmonic Enhancement and Manipulation of Optical Nonlinearity in Monolayer Tungsten Disulfide. Laser& Photonics Reviews 2018, 12 (10). (IF 11)

21. Wang, H.; Ding, Y.;Chen, W.;Liu, Y.; Tang, D.; Cui, G.; Li, W.*; Shi, J.*; Bo, Z.*, Broadband Absorption Enhancement in Polymer Solar Cells Using Highly Efficient Plasmonic Heterostructured Nanocrystals. ACS Appl Mater Interfaces 2018, 10 (37).

22. Sang, Y., Wu, X.,Raja, S. S.,Wang, C. Y., Li, H., Ding, Y., Liu, D.; Zhou, J.; Ahn, H.; Gwo,Shangjr.*; Shi,J.* Broadband Multifunctional Plasmonic Logic Gates. Advanced Optical Materials 2018,1701368. (IF 9.0)

23. Ding, Y.; You, Y.;Sang, Y.;Wang, Y.; Zhao, M.;Liang, C.; Lu, C.; Liu, D.; Zhou, J.; Tang, Z.*;Shi, J.*,Broadband Surface Enhanced Photoluminescence Based on Gold Nanocubic Self-assembly. Advanced Optical Materials 2017,1700551. (IF 9.0)

24. Wang, Y.; Zheng,R.; Ding, Y.;Fan, W.; Liu, D.; Zhou,J.; Shi, J.*, Resolving the bond angle ofa plasmonic metamolecule. Optica 2017,4 (9),1092-1097. (IF 10.4)

25. Shi, J.; Lin, M.H.; Chen, I.T.; Mohammadi Estakhri, N.;Zhang, X. Q.; Wang, Y.; Chen, H. Y.;Chen, C. A.;Shih, C. K.; Alu, A.; Li, X.*;Lee, Y. H.*; Gwo, S.*, Cascaded exciton energy transfer in a monolayer semiconductor lateral heterostructure assisted bysurface plasmon polariton. Nat Commun2017,8 (1), 35. (IF 15.7)

26. Sun, L.; Ma, T.;Yang, S.-C.; Kim,D.-K.; Lee, G.; Shi, J.; Martinez, I.; Yi, G.-R.; Shvets,G.*; Li, X.*,Interplay Between Optical Bianisotropy and Magnetism in Plasmonic Metamolecules. Nano letters 2016,16 (7), 4322-4328.

27. Hartsfield, T.;Chang, W.-S.;Yang, S.-C.; Ma, T.; Shi, J.; Sun, L.; Shvets, G.*; Link, S.*;Li, X.*, Single quantum dot controls a plasmonic cavity’s scattering and anisotropy. Proceedings of the National Academy of Sciences 2015,112 (40),12288-12292.

28. Fan, W.; Wang, Y.;Zheng, R.;Liu, D.; Shi, J.*, Broadband high efficiency asymmetric transmission of achiral metamaterials. Optics express 2015,23 (15), 19535-19541.

29. Cui, L.; Shi, J.*;Wang, Y.;Zheng, R.; Chen, X.; Gong,W.; Liu, D.*, Retrieval of contaminated information using random lasers. Applied Physics Letters 2015,106 (20), 201101.

30. Shi, J.; Monticone,F.; Elias,S.; Wu, Y.; Ratchford, D.;Li, X.*; Alu, A.*, Modular assembly of optical nanocircuits. Nature Communications2014, 5, 3896. (IF 15.7)

31. Chen, S.; Shi, J.*;Kong, X.;Wang, Z.; Liu, D.*, Cavity coupling in a random laser formed by ZnO nanoparticles with gain materials. Laser Physics Letters 2013,10 (5), 055006.

32. Zhao, Y.; Shi, J.;Sun, L.; Li, X.; Alù, A., Alignment‐Free Three‐Dimensional Optical Metamaterials. Advanced Materials 2014,26(9), 1439-1445.

33. Shi, X.; Wang, Y.;Wang, Z.;Wei, S.; Sun, Y.; Liu, D.;Zhou, J.; Zhang, Y.; Shi, J., Random lasing with ahigh quality factor over the whole visible range based on cascade energy transfer. Advanced Optical Materials 2014,2 (1), 88-93.

34. Wang, Y.; Shi, X.;Sun, Y.;Zheng, R.; Wei, S.; Shi, J.;Wang, Z.; Liu, D., Cascade-pumped random lasers with coherent emission formed by Ag–Au porous nanowires. Optics letters2014,39(1),5-8.

35. Zhang, L.; Zhang,D.; Shi, J.;Shi, J.; Gong, W.; Liu,D., Investigations on coherence of stimulated Brillouinscattering excited by a single-mode-pulsed laser. Applied Physics B 2012,109(1),137-141.

36. Shi, J.; Tang, Y.;Wei, H.;Zhang, L.; Zhang, D.; Shi,J.; Gong, W.; He, X.; Yang, K.; Liu, D.,Temperaturedependence of thresholdand gain coefficient of stimulated Brillouinscatteringin water. Applied Physics B 2012,108 (4), 717-720.

37. Chen, S.; Zhao, X.;Wang, Y.;Shi, J.; Liu, D., Whitelight emission with red-green-blue lasingaction in adisordered system ofnanoparticles. Applied Physics Letters 2012,101(12),123508.

38. Shi, J.; Chen, X.;Ouyang, M.;Gong, W.; Su, Y.; Liu, D.,Theoretical investigation on the pumpingeffect ofstimulated Brillouinscattering on stimulated Raman scattering inwater. AppliedPhysics B: Lasers and Optics 2012,106 (2), 445-451.

39. Zhang, L.; Zhang,D.; Yang, Z.;Shi, J.; Liu, D.; Gong,W.; Fry, E. S., Experimental investigationon line widthcompression ofstimulated Brillouin scattering in water. AppliedPhysics Letters2011,98 (22), 221106.

40. Shi, J.; Wang, Z.;Liu, D.;Gong, W.; Su, Y.,Electromagnetic detection of a perfect cloak based onthematerial nonlinear response. Applied Physics B 2011,105 (2), 225.

41. Zhai, T.; Shi, J.;Chen, S.;Liu, D., Electromagnetic shielding and energy concentration using zero-index metamaterials. Applied physics express 2011,4 (7), 074301.

42. Zhai, T.; Shi, J.;Chen, S.;Liu, D.; Zhang, X.,Achieving laser ignition using zero index metamaterials. Optics letters 2011,36 (14), 2689-2691.

43. Zhai, T.; Chen, S.;Zhou, Y.;Shi, J.; Zhang, X.; Liu,D., Beam controller using nonlinear embedded optical transformation. Applied Physics B: Lasers and Optics 2011,104 (4),935-939.

44. Shu-Jing, C.; Jin-Wei,S.;Tian-Rui, Z.; Zhao-Na, W.;Da-He, L.; Xiao, C., Wavelength variation of a random laser with concentration of a gain material. Chinese Physics Letters2011,28(10),104204.

45. Zhai, T.; Zhou, Y.;Chen, S.;Wang, Z.; Shi, J.; Liu,D.; Zhang, X., Pulse-duration-dependent and temperature-tunable random lasing in a weakly scattering structure formedbyspeckles. Physical Review A 2010,82 (2), 023824.

46. Zhai, T.; Zhou, Y.;Shi, J.;Wang, Z.; Liu, D.; Zhou,J., Electromagnetic localization based on transformation optics. Optics express 2010,18 (11), 11891-11897.

47. Yu-Huan, S.;Jin-Wei, S.; Da-He,L.; Guo-Jian, Y.,Detection of Perfect Cloak in Time Domain.Chinese PhysicsLetters 2010,27 (9), 094102.

48. Yu-Huan, S.;Jin-Wei, S.; Min,O.; Guo-Jian, Y.;Da-He, L., Theoretical Analysis of the Critical Phenomena of a Brillouin Laser. Chinese Physics Letters 2010,27 (7),074203.

49. 陈旭东; 石锦卫; 刘娟; 刘宝; 许艳霞; 史久林; 刘大禾, 同轴正交偏振双脉冲序列受激布里渊散射抽运放大的实现方法. 物理学报 2010, (2),1047-1051.

50. Shi, J.; Ouyang,M.; Chen, X.;Liu, B.; Xu, Y.; Jing,H.; Liu, D., Stimulated Raman scatteringenhanced bystimulated Brillouinscattering. Optics letters 2009,34 (7),977-979.

51. Shi, J.-w.; Chen,X.-d.; Ouyang,M.; Liu, J.; Liu, D., Theoretical investigation on the threshold value of stimulated Brillouin scattering in terms of laser intensity. Applied Physics B 2009,95(4), 657-660.

52. Shi, J.; Chen, X.; Ouyang, M.; Liu, J.; Liu, D., Amplification of stimulated Brillouin scattering of two collinear pulsed laser beams with orthogonal polarizations. Applied Optics 2009,48(17), 3232-3236.

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