寇君龙 (Jun-long Kou)，副教授，博士生导师，国家级青年人才，紫金学者

南京大学材料物理与化学学士、硕士，加州理工学院电子工程硕士、博士。长期从事微纳结构调控的无源、有源光电材料及器件研究，器件主要用于光传感、光通信、能源、汽车雷达、生物医疗等领域。2019到2022年，寇君龙在国际领先半导体公司从事半导体激光器、调制器芯片研发和应用工作，积累了不少产学研经验。2021年入选国家级青年人才，2022年入选紫金学者，曾获江苏省科学技术一等奖、南京大学青年五四奖章、中国光学学会“王大珩”高校学生光学奖、江苏省优秀硕士学位论文、南京大学教学竞赛一等奖等。寇君龙教授在Nature系列、IEEE系列、OPTICA系列、ACS系列、Physical Review系列等著名微电子和光电子刊物发表同行评议论文50余篇，相关成果被人民日报、Nature Photonics、麻省理工科技评论、今日头条等报道；申请、授权美国发明专利1项、中国发明专利20项，转让1项；撰写图书章节2章。中国光学学会高级会员，中国光学工程学会高级会员，中国电子学会/中国物理学会/OPTICA/IEEE/SPIE会员，《Chip》、《Nano-Micro Letters》、《PhotoniX Synergy》、《红外与激光工程》、中国激光杂志社、《光学学报》、《光子学报》青年编委。指导学生多次获得国家级大创项目、地方创新创业项目、南京大学优秀毕业生等荣誉。

课题组成员来自南京大学（电子学院、物理学院、匡亚明学院、集成电路学院、现工院）、上海交大、浙大、中科大、武大、华科、西交大、国防科大、人大、川大、中山、东南、北师大等。长期招收博士、硕士研究生（电子、物理、光电、材料、化学、生物）、有志于科学研究或工程应用的本科生(可提前进组)，招聘专职科研人员和博士后。

1. 微纳结构调控的新型半导体光电有源器件

2. 基于新型物理效应的电路

3. 面向智能传感系统的微纳光电子学传感器件和系统应用

4. 光电AI计算

《信息科学中的物理》

《半导体光电子技术》

《集成电路前沿技术》

《光电芯片工艺制程认识与实训》

† denotes co-first authors 

* denotes corresponding authors

不完全统计

60. High-Contrast Optical Hilbert Transformer via Polarization Singularity Evolution (Submitted)

R. Hao, L. Si, and J.-l Kou*

59. 一种新型的周期电路能带直接测量方法

58. 内置参考光路的光纤式集成色散型拉曼光谱仪

57. Coherent perfect absorption in non-Hermitian dimers (Submitted)

Z. Gao†, J. Sheng†, J. Qian, and J.-l Kou*

56. Polarization‐Controlled Tunable Beam Shift via Pancharatnam‐Berry Phase Gradients

R. Hao, J. Chen, Z.-x, Zhou, Y. Lu, and J.-l Kou*

 Laser & Photonics Reviews (Accepted)

55. Electric Circuit Implementation of a Coupled Bilayer SSH Model (In Preparation)

S. Wu†, Z. Gao†, and J.-l Kou*

54. Near-flat band-assisted merging BICs photonic crystal near-infrared laser (In Preparation)

Z. Zhou, W. Wang, and J.-l Kou*

53. Dirac vortex cavity based on a Kagome lattice (In Preparation)

S. Wu, and J.-l Kou*

52. Observation of topological transitions in non-Hermitian quasiperiodic lattices in circuits (In Preparation)

C. Li†, Y. Lei†, L. Si, andJ.-l Kou*

51. On-chip tunable Fano and EIT resonances based on a single microring resonator coupling system (In Preparation)

50. On-chip ultracompact broadband reflector and high-Q Fabry-Pérot cavity based on inverse design (Submitted)

L. Si†, H. Qin†, C. Huang, andJ.-l Kou*

49. Compact on-chip optical spectrum engineering (In Preparation)

H. Qin†, L. Si†, andJ.-l Kou*

48. Design of a Optical mechanical accelerometer with Optical Frequency Comb Enhancement for Sensitivity Improvement (Submitted)

47. Dual-Dirac-cone circuit 

C. Li, X. Sun, andJ.-l Kou*

46. Design of Universal Optoelectronic Hybrid Logic Gates Based on Micro-Ring Modulator (In Preparation)

H. Qin†, J. Sheng†, and J.-l Kou*

45. Parity-time symmetry in moiré lattice 

L. Hu, and J.-l Kou*

 ACTA PHOTONICA SINIC (Accepted)

44. Electrically pumped single-mode microlasers with omnidirectional radiation for optical broadcasting communication

F. Xu, J. Liu, Y. Sang, T. Tao, J.-l Kou, J. Liu, T. Zhi, Z. Zhuang, R. Zhang, B. Liu

 Science Advances 12(6), eaeb1682

43. Janus Bound States in the Continuum in Asymmetric Two-Dimensional Photonic Crystal Slabs (In Preparation)

42. Lasers based on bound states in the continuum (invited)

C. Pan, R. Hao, W. Wang, Z. Zhou, Y. Lu, and J.-l Kou*

 Infrared and Laser Engineering 54(6)

41. 一种基于双谐振环频谱调制的光电混合通用逻辑门

40. 一种基于单谐振环频谱调制的光电混合通用逻辑门

39. Fisher information analysis of unidirectionally coupled circuits (In Preparation)

Q. Bai, Z. Li, and J.-l Kou*

38. Spatial light field imaging device and preparation method thereof (国际专利)

37. Complex-Amplitude-Modulated Meta-Device for Optical Image Processing

 X. Jiang†, P. Lin†, Y. Zhang, T. Tao, Y. Du, X. Tu, T. Xu, Y. Lu, and J.-l Kou*

 Chip 4, 100132 (2025)

36. Circuits Based on Exceptional Points Introduced by Unidirectional Coupling

 W. Zhao†, Y. Zhang†, Z. Gao, J.-l Kou*, Y.-q. Lu, S. Ozdemir, Q. Zhong

 Nature Communications 15, 9907 (2024)

Featured article by Nature Springer (Nature Springer亮点研究工作)

35. Spin-dependent edge detection and imaging enabled by optical circularly polarised states

 J. Chen†, Z.-x. Chen†, Z.-x Zhou, Y.-q. Lu, and J.-l. Kou*

 Light: Advanced Manufacturing (2025)6:8 (麻省理工科技评论、中国光学报道)

34. Daytime radiative cooling using near-black infrared emitters

J.-l. Kou, Z. Jurado, Z. Chen, S. Fan, A. J. Minnich

 ACS Photon. 4 (3), 626-630 (单篇被引用700次，美国能源部报道)

33. Non-Hermitian Coherent Perfect Absorption Circuit Sensor (In Preparation)

 J. Sheng†, Z. Gao†, J. Qian†, and J.-l Kou*

32. 自研高功率脉冲激光器(工程样机)

 J. Sheng†, Y. Liu†, X. Ji†, and J.-l Kou*

31. Coherent perfect absorption in RLC circuits with unidirectional coupling (In Preparation)

 Z. Gao, J. Sheng, W. Zhao, Y.-q Lu, Q. Zhong, and J.-l Kou*

30. Inverse Design of Multiplexable Meta-devices for Imaging and Processing

 Z.-x Zhou†, X.-y Zhang†, H. Qin, Z.-x Gao, Y.-a Zhang, C. Huang, F. Fang, Y.-q Lu, and J.-l Kou*

 ACS Photonics 12, 1, 246-252 (2025) (中国光学报道)

29. Square-root dependent spectrum splitting based on transmission peak degeneracy in electronic circuits  (In Preparation)

 Y. Zhang, Y.-q Lu, Q. Zhong, and J.-l Kou*

28. 一种基于对称破缺连续域束缚态的单向辐射激光器 CN118801211A

27. 一种基于相干激光阵列的光卷积神经网络 CN118586452A

26. Observation of Parity-Time Symmetry for Evanescent Waves

 Z. Chen, H. He, H. Li, M. Li, J.-l Kou, Y.-q. Lu, J. Xu, and Andrea Alù

 Communications Physics 7 (1), 339

25. Polarization Field in Momentum Space of Two-Dimensional Photonic Crystal Slabs 二维光子晶体板动量空间中的偏振场（特邀，内封面）

 W. Wang, J.-l Kou*, and Y.-q. Lu

光学学报 44.10(2024):1026003

24. 一种非对称激射的涡旋激光器 CN118763499A

23. Low-index-contrast metastructure for on-chip optical scattering computation based on topology optimization (Submitted)

 P. Hong, Y.-q. Lu, and J.-l. Kou*

22. Design of a Optical Mechanical Accelerometer with Optical Frequency Comb Enhancement for Sensitivity Improvement (Submitted)

 X. Yan; M. Tian; F. Qin; X. Li; D. Yang; Z. Wang; K. Shen; J.-l. Kou; Z. Cai, G. Zhu

21. 基于伴随法的贝塞尔-高斯光束发射器逆向设计

 X. Jiang,P. Hong, C. Huang, Y.-q. Lu, and J.-l. Kou*

光学学报 45.08(2025)

20. Inverse Design of Reconfigurable Arithmetic Unit (Submitted)

 Hao-ran Qin†,Xin-yi Zhang†, Y.-q. Lu, and J.-l. Kou*

19. Non-local polarization multiplexing meta-surface for image processing (Submitted)

 Xin-yi Zhang†, Hao-ran Qin†, Y.-q. Lu, and J.-l. Kou*

18. Evolution of degenerate pairs of symmetry-protected bound states in the continuum

 W. Zhao†, W. Wang†, J.-l. Kou*, and Y.-q. Lu

 IEEE Photonics Journal, 16, 4600407

17. 一种基于非对称数字系统编码的静态可逆信息隐藏方法 CN119046901A

16. Advances of Inverse Design in Photonics 光子学逆向设计研究进展 (特邀，2023年优秀封面论文)

 P. HONG，L. HU，Z. ZHOU，H. QIN，J. CHEN，Y. FAN，T. YIN，J.-l. Kou*, and Y.-q. Lu

 ACTA PHOTONICA SINICA 52, 0623001

15. Hierarchical construction of higher-order exceptional points

 Q. Zhong, J. Kou, S. K. Ozdemir, R. El-Ganainy

 Phys. Rev. Lett. 125, 203602

14. Dynamic optical control of near-field radiative transfer

J.-l. Kou, A. J. Minnich

 Opt. Express 26 (18), A729-A736

13. Wavelength-selective thermal extraction for higher efficiency and power density thermophotovoltaics

 Z. Jurado*, J.-l. Kou*, S. M. Kamali, A. Faraon, A. J. Minnich

 J. Appl. Phys. 124 (18), 183105

12. 空间光场成像器件及其制备方法 CN118131476B

11. Highly Efficient and Tailorable On-Chip Metal–Insulator–Metal Plasmonic Nanofocusing Cavity

 Z. Li, J.-l. Kou, M. Kim, J. Lee, and H. Choo

 ACS Photon. 1, 944-953

10. Implementation of a high-Q and small-mode-volume cavity in microfibers

J.-l. Kou, F. Xu, and H. Choo

 IEEE J. Sel. Top. Quantum Electron. 20, 85-88

9. Platform for enhanced light–graphene interaction length and miniaturizing fiber stereo devices

J.-l. Kou, J.-h. Chen, Y. Chen, F. Xu, and Y.-q. Lu

 Optica 1, 307-310 (Nature Photonics报道)

8. Miniaturized broadband highly birefringent device with stereo rod-microfiber-air structure

J.-l. Kou, Y. Chen, F. Xu, and Y.-q. Lu

 Opt. Express 20, 28431-28436

7. Highly birefringent slot-microfiber

J.-l. Kou, F. Xu, and Y.-q. Lu

 IEEE Photon. Technol. Lett. 23, 1034-1036

6. Demonstration of a compact temperature sensor based on first-order Bragg grating in a tapered  fiber probe

J.-l. Kou, S.-j. Qiu, F. Xu, and Y.-q. Lu

 Opt. Express 19, 18452-18457

5. Broadband and highly efficient quadratic interactions in double-slot lithium niobate waveguides through phase matching

J.-l. Kou, Q. Wang, Z.-y. Yu, F. Xu, and Y.-q. Lu

 Opt. Lett. 36, 2533-2535

4. 一种激光器 202110891605.4

寇君龙

3. 一种垂直腔面发射激光器及其制造方法与应用 202110548868.5

寇君龙,等

2. 一种垂直腔面发射激光器及其制备方法 202110728999.1

寇君龙,等

1. 一种垂直腔面发射激光器及其制造方法与应用 202110691592.6

寇君龙,等