课题组简介：

本课题组致力于前沿交叉电磁学与光子学研究，通过人工电磁微结构（人工表面等离激元电路与电磁超表面）实现对光波/电磁波的自由操控，并探索其在新型通信、传感、集成电路中的应用。研究横跨基础理论创新、关键技术突破与系统应用集成，为研究生提供广阔前景的培养平台。

学生获奖情况：

国家重点研发计划课题“非厄米拓扑电路及新型功能化电路器件研究”

本课题聚焦于非厄米拓扑电路及新型功能化电路器件的开发，拟研究并构造具有非阿贝尔物理效应的拓扑电路，形成多种模块化的非阿贝尔拓扑电路实验平台，探索并建立适用于非阿贝尔规范场拓扑电路的体边对应理论和拓扑不变量。在理论研究的基础上，研制出基于非厄米拓扑电路的新型传感系统，使读取器的频谱响应灵敏度相比于传统无线电传感装置提高10 倍以上。本课题的研究有望在拓扑量子计算、高灵敏度的传感等方面取得重要的应用。

国家自然科学基金面上项目“基于非线性人工表面等离激元技术的毫米波放大器及非互易器件”

人工表面等离激元所具有的独特物理特性可极大地提升现有通信系统的性能，为微波毫米波器件小型化、信号完整性以及抑制邻间串扰提供了重要的解决方案。然而，现有人工表面等离激元的放大通常只能依赖传统放大器芯片，无法突破信号失真等瓶颈问题，不适用于毫米波通信；此外，基于传统磁性材料的人工表面等离激元非互异器件体积大，造价昂贵，难以与集成电路兼容。为突破以上两类毫米波电路关键器件的设计瓶颈，本项目将充分发掘人工表面等离激元超材料对电磁波优异的调控性能，探索非线性参量放大相位匹配机理，实现宽带、高增益、无信号相位失真的新型毫米波人工表面等离激元参量放大器，并在此基础上进一步实现高性能的毫米波非磁性隔离器和环形器。本项目的研究成果将进一步推动新型人工表面等离激元器件在毫米波集成电路中的应用。

国家重点研发计划课题“非厄米拓扑电路及新型功能化电路器件研究”

国家自然科学基金面上项目“基于非线性人工表面等离激元技术的毫米波放大器及非互易器件”

国家自然科学基金区域联合项目“基于二维材料的毫米波纳机电谐振器关键技术研究”

国家自然科学基金面上项目“量子变换光学的研究及其在表面等离激元采光器件设计上的应用”

*代表通讯作者

1.     Y. Huang, JingjingZhang*, Q. Yang, L. Meng, T. Yang, C.-W. Qiu, and Yu Luo,Transformation-Invariant Laplacian Metadevices Robust to EnvironmentalVariation, Advanced Materials 2412929, 2025. （IF=26.8, Q1）

 2.    S. Luo, J. Xia, Y. Wang, J. Wang, Q. Xiao, W. Li, Y.Luo, T. J. Cui, and Jingjing Zhang*, CompactMetasurface-Enabled Weber Beams with Extended-Range Propagation and RobustSelf-Healing, Adv. Mater. Technol. e01272, 2025. （IF=6.2, Q1）

 3.    H. A. Khan, Jingjing Zhang*, S. Luo, and Y.Wang, A Single-Layer Checkerboard Metasurface Based on ReconfigurablePolarization Converter for Dual-Mode RCS Reduction, IEEE Antennas and WirelessPropagation Letters 24, 2029-2033, 2025.

 4.    H. A. Khan, W. Liu, S. Luo and JingjingZhang*, Dual-band switchable reconfigurable metasurface reflector/absorber andits application for radar cross section reduction, Phys. Scr. 100, 075568, 2025.

 5.    S. Li, H. Wu, Jingjing Zhang, R. Banerjee, L.Zou, Y. Zhang, Hao Hu, Y. Chong, Q. J. Wang, and Y. Luo, Topological thermalcrystalline insulators, Applied Physics Reviews, In press, 2025.

 6.    W. Y. Cui, Jingjing Zhang*, Y. Luo, X. Gao& T. J. Cui, Dynamic switching from coherent perfect absorption toparametric amplification in a nonlinear spoof plasmonic waveguide, NatureCommunications 15: 2824, 2024. （IF=15.7, Q1）

 7.    J. Chen, Q. Xie, Jingjing Zhang*, Z. Li, T. J.Cui, and Y. Luo, Coherent-Resonance Enhancement of Sensing at the ExceptionalPoints, Advanced Optical Materials 2302268, 2024. （IF=8.0, Q1）

 8.    Q. Li, Y. Luo, Jingjing Zhang*, Y. Gao, J.Tang, X. Hu, D. Ye, Polarization-independent Spatial Kramers-Kronig medium for omnidirectionalreflectionless absorption of unpolarized light, Communications Physics7:147, 2024. （IF=5.4, Q1）

 9.    X. Hu, Y. Luo, J. Wang, J. Tang, Y. Gao, J. Ren, H.Yu, Jingjing Zhang*, and Dexin Ye, MultibandOmnidirectional Invisibility Cloak, Advanced Science 11, 2401295, 2024. （IF=14.3, Q1）

 10. W. Y. Cui, X. Gao, Jingjing Zhang*, Y. Luo, & T.J. Cui, Power-modulated reconfigurable nonlinear plasmonic devices without DCpower supply and feed circuit, npj Nanophotonics 1:11 2024.

 11. W. Zou, W. X. Tang, Jingjing Zhang*, S. Luo, F. Liu,H. Zhang, Y. Luo, T.-J. Cui, Dispersion Compensation for Spoof PlasmonicCircuits, Progress In Electromagnetics Research 179, 95-100, 2024. （IF=6.7, Q1）

 12. Y. Gao, Y. Luo, Jingjing Zhang, Z. Huang, B.Zheng, H. Chen, and D. Ye, Full-parameter omnidirectional transformationoptical devices, National Science Review 11: nwad171, 2024.

 13. Q. Xiao, Q. Ma, Y. M. Ning, L. Chen, S. Liu, JingjingZhang, J. W. You* and T. J. Cui, Programmable topological metasurface tomodulate spatial and surface waves in real time, Nanophotonics 2024. （IF=6.5, Q1）

 14. Y. Zhang, H. Hu, F. J. García-Vidal, JingjingZhang, L. Liu, Y. Luo, Z. Li, Reconfigurable exceptional point-based sensingwith 0.001λ sensitivity using spoof localized surface plasmons, Advanced Photonics Nexus 3, 5, 056004, 2024.

 15. D. Liu, H. Hu, Jingjing Zhang*, Edge states incoupled non-Hermitian resonators, Optics Letters 48, 11, 1, 2023. （IF=3.1, Q2）

 16. Y. Ren, Jingjing Zhang*, X. Gao, X. Zheng, L. P.Zhang and T. J. Cui, Miniaturized Spoof Plasmonic Antennas with Good ImpedanceMatching, Nanomaterials 13, 136, 2023. （IF=4.4, Q2）

 17. H. Wu, H. Hu, X. Wang, Z. Xu, B. Zhang, Q. Wang, Y. Zheng,Jingjing Zhang, T. J. Cui, Y. Luo, Higher-orderTopological States in Thermal Diffusion, Advanced Materials 35, 2210825,2023. （IF=27.4, Q1）

18. X. Gao, Q. Ma, Z. Gu, W. Y. Cui, C. Liu, JingjingZhang, T. J. Cui, Programmable surface plasmonic neural networks for microwavedetection and processing, Nature Electronics 6, 319-328, 2023. （IF=33.7, Q1）

 19. X.Gao, W. Y. Cui, Z. Gu, Jingjing Zhang, Y. Ren, Q. Ma, and T. J. Cui, Multimode and Reconfigurable Phase Shifter of SpoofSurface Plasmons,IEEE Transactions on Antennas and Propagation, 71, 6, 5361-5369, 2023. （IF=4.6, Q1）

 20. H. A. Khan, J. W. Zhang, J. C. Liang, J. Xia,Jingjing Zhang, Aconformal coding metasurface for dual polarization conversion and radar crosssection (RCS) reduction, Journal of Optics 25, 12, 125102, 2023.

 21. X. Zheng, Jingjing Zhang*, Y. Luo, Z.Wang, Y. Ren, and T. J. Cui, Rotationally Symmetrical Spoof-Plasmon Antenna forPolarization-Independent Radiation Enhancement, Physical Review Applied18, 054018, 2022. （IF=3.8, Q2）

 22. W. Y. Cui, Jingjing Zhang*, X. Gao, and T. J. Cui, Reconfigurable Mach-Zehnderinterferometer for dynamic modulations of spoof surface plasmon polaritons, Nanophotonics,11(9): 1913–1921, 2022. （IF=6.5, Q1）

 23.  X. Liu, Y. Lei,X. Zheng, Y. Ren, X. Gao, JingjingZhang*, and T. J. Cui,Reconfigurable spoof plasmonic coupler for dynamic switching between forwardand backward propagations, Advanced Materials Technologies 7, 2200129,2022. (Editor’s Choice)（IF=6.4，Q1）

 24. Y. Lei, Jingjing Zhang*,J. W. Wang, X. Gao, T. J. Cui, Spoof localized surface plasmon enhancedisolation and circulation, Advanced Material Technologies, 7, 2101362,2022. （IF=6.4，Q1）

 25. X. Gao#, Jingjing Zhang#*, Q. Ma, W. Y. Cui ,  Y. Ren, Y.Luo and T. J. Cui, Nonmagnetic spoof plasmonic isolator based on parametricamplification, Laser & Photonics Reviews, 16, 2100578,  2022. （IF=9.8，Q1）

 26. Y. Ren, JingjingZhang*, X. Gao, X. Zheng, X. Liu, T. J. Cui, Active spoof plasmonics: from design toapplications, Journal of Physics: Condensed Matter 34, 053002, 2022. （IF=2.3，Q3）

 27. Y. Huang, Jingjing Zhang*, B. Qiang, Z. Xu, Q. Wang, Y. Luo, Guiding and routing surface plasmons with transformation-invariantmetamaterials, Journal of Optics, 24, 015003, 2022. （IF=2.0，Q3）

 28. J. Wang, Jingjing Zhang, H. Gao, X. Fu, D. Bao, T.J. Cui, Mixed-Resolution High-Q Sensor Based on Hybridized Spoof LocalizedSurface Plasmons, Frontiers in Physics 10, 850186, 2022.

 29. Q. Li, Y. Luo.* D. Liu, Y. Gao, JingjingZhang, L. Ran, and D. Ye*, A Miniaturized Anechoic Chamber: OmnidirectionalImpedance Matching Based on Truncated Spatial Kramers–Kronig Medium, Advanced Optical Materials 10, 2200381,2022. （IF=8.0, Q1）

 30. L. P. Zhang, H. C. Zhang, JingjingZhang, L. Y. Niu, P. H. He, C. Wei, W. Tang and T. J. Cui, ReprogrammableControl of Electromagnetic Spectra Based on Time-Coding PlasmonicMetamaterials, Applied Physics Letters 121, 161702, 2022.

 31. X. Gao, Jingjing Zhang*, Y. Luo, Q. Ma, G. D. Bai, H. C. Zhang, and T. J. Cui, Reconfigurable ParametricAmplifications of Spoof Surface Plasmons, Advanced Science 8, 17,2100795, 2021.

 32. C. X. Huang, JingjingZhang*, Q. Cheng, and T. J. Cui, Polarization modulation for wireless communications based on metasurfaces, Advanced Functional Materials 31,36, 2103379, 2021.

 33.  Y. Huang, Jingjing Zhang*, J. Zhou, B. Qiang, Z. Xu, L. Liu, J. Tao, N. Kossowski, Q. Wang, Yu Luo,Polarization-robust mid-infrared carpet cloak with minimized lateral shift, PhotonicsResearch 9, 6,  944-949, 2021.

 34. W. Y. Cui, JingjingZhang*, X. Gao, X. Zhang and T. J. Cui, Passiveamplitude-phase modulations and sensing based on Mach-Zehnderinterferometer of spoof surface plasmon polaritons, Journal of Optics23, 075101, 2021.

 35. X. Zhang, W. Cui, Y. Lei, X. Zheng, JingjingZhang, and T. J. Cui，Spoof LocalizedSurface Plasmons for Sensing Applications, AdvancedMaterials Technologies  6, 4,2000863, 2021.

 36. X. Gao#, JingjingZhang#*, H. C. Zhang, L. Liu, Q. Ma, P. Xu, and T. J. Cui, Dynamic Controls of Second-Harmonic Generations in BothForward and Backward Modes Using Reconfigurable plasmonic Metawaveguide, Advanced Optical Materials  8 (8), 1902058, 2020.

 37. C. X. Huang, Jing Jing Zhang*,  L. Wu,  C. Zhang,  J. Yang,  L. X. Yang,  J. C. Ke,  L. Bai, Q. Cheng, T. J. Cui, Multi-Band Tunable Chiral Metamaterial forAsymmetric Transmission and Absorption of Linearly Polarized ElectromagneticWaves, Advanced Theory & Simulations 3, 2000179, 2020.

 38. H. C. Zhang#, T. J. Cui#, Y. Luo#, JingjingZhang#, J. Xu, P. H. He, L. P. Zhang, Activedigital spoof plasmonics, National Science Review, 7 (2), 261-269, 2020.

 39. H. Hu, X. Lin, JingjingZhang, D. Liu, P. Genevet, B. Zhang, and Y. Luo， NonlocalityInduced Cherenkov Threshold, Laser & PhotonicsReviews 14, 2000149, 2020.

 40. Y. Huang, Y. Zhang, Jingjing Zhang, D. Liu, Q. Wang, B. Zhang, and Y. Luo, A conformal transformation approach towide-angle illusion device and absorber, Nanophotonics 9 (10): 3243–3249, 2020.

 41. JingjingZhang, H.-C. Zhang, X.-X. Gao, L.-P. Zhang, L.-Y. Niu, P.-H. He, T.-J. Cui,Integrated spoof plasmonic circuits, Science Bulletin 64 (12), 843-855, 2019.

 42. D. Bao, Q. Cheng, W. X. Jiang, JingJing Zhang, Z. Liao, J. W. Wu, J. Yang, X. R. Zhang, and T. J. Cui, Concentric designer plasmon hybridization in deep subwavelengthmetamaterial resonator, Applied Physics Letters 115, 121103, 2019.

 43. JingjingZhang, J. Pendry, Y. Luo,Transformation optics from macroscopic to nanoscale regimes: a review, Advanced Photonics 1,014001, 2019.

 44. L. Liu#, L. Wu#, JingjingZhang#, Z. Li, B. Zhang, Y. Luo, Backward phase matching forsecond harmonic generation in negative-index conformal surface plasmonicmetamaterials, AdvancedScience 5, 1800661, 2018. 

 45. Y. Huang, Jingjing Zhang*, T. J. Cui, Z.Liao, and D. H. Zhang, Revealing the physical mechanisms behind largefield enhancement in hybrid spoof plasmonic systems, Journal of the OpticalSociety of America B 35, 396-401, 2018.

 46. H. Hu, Jingjing Zhang, S. A. Maier, Y. Luo, Enhancing Third-harmonicGeneration with Spatial Nonlocality, ACS Photonics 5, 592–598, 2018.

 47. Jingjing Zhang, Z. Liao, Y. Luo,X. Shen, S. A. Maier, and T. J. Cui, Spoof plasmon hybridization, Laser &PhotonicsReviews 11, 1600191, 2017.

 48. D. Li, Jingjing Zhang, C. Yan, Z. Xu, D.Zhang, Subwavelength dielectric nanorod chains for energy transfer in thevisible range, OpticsLetters 42, 4223-4226, 2017.

 49. JingjingZhang*, M. Wubs, P. Ginzburg, G. Wurtz and A. V Zayats,Transformationquantum optics: designing spontaneous emission using coordinatetransformations, Journalof Optics 18, 044029, 2016. (Invited paper)

 50. Z. Liao#, A. I. Fernández-Domínguez#,Jingjing Zhang#, S. A. Maier, T. J. Cui, and Y. Luo, Homogenousmetamaterial description of localized spoof plasmons in spiral geometries,ACSPhotonics 3,1768-1775, 2016.

 51. G. Sartorello, N. Olivier, Jingjing Zhang, W.Yue, D. J. Gosztola, G. P. Wiederrecht, G. Wurtz, and A. V. Zayats, Ultrafastoptical modulation of second and third harmonic generation from cut-disk-basedmetasurfaces, ACS Photonics 3, 1517-1522, 2016.

 52. Jin Tao, Qi Jie Wang, Jingjing Zhang, Yu Luo,Reverse surface-polariton cherenkov radiation, Scientific Reports 6, 30704, 2016.

 53. JingjingZhang*, Evolutionary optimization of compact dielectric lens for farfieldsub-wavelength imaging, Scientific Reports 5, 10083, 2015.

 54. Y. Yang, S. Xiao, N. A. Mortensen, H. Chen, JingjingZhang*, Ultrathin 90-degree sharp bends for spoof surface plasmonpolaritons, OpticsExpress 23, 19074-19081, 2015.