职称:研究员、博导、国家重大人才工程特聘教授 | ||||||
办公室:四牌楼校区李文正楼北622室 | ||||||
办公电话:025-83793275 | ||||||
Email:wxjiang81@seu.edu.cn | ||||||
学习经历: | ||||||
2000.09 - 2004.07 青岛大学信息与计算科学专业攻读学士学位 2004.09 - 2007.01 东南大学应用数学专业攻读硕士学位 2007.03 - 2010.10 东南大学电磁场与微波技术专业攻读博士学位 | ||||||
工作经历: | ||||||
2010.11 - 2011.04 讲师 2011.05 - 2015.04 副研究员 2015.05 - 至今 研究员 2017.01 - 至今 青年首席教授 2018.10 - 2021.09 江苏特聘教授 2023.08 - 至今 国家重大人才工程特聘教授 | ||||||
教授课程: | ||||||
读写能力培养- 本科 基站硬件设计理论与应用- 硕士 电磁场工程的数学基础- 硕士
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研究方向: | ||||||
电磁超材料、光调控可编程超表面、天线与电磁波传播、声电超表面 | ||||||
获奖情况: | ||||||
2011年教育部自然科学一等奖(排二) 2013年全国优秀博士学位论文 2014年国家自然科学二等奖(排三)、国际无线电科学联盟“青年科学家奖” 2015年获国家优秀青年基金资助 2016年入选国家重大人才工程青年学者 2018年国家自然科学奖二等奖(排三)、江苏特聘教授 2020年第十七届江苏省青年科技奖 2021年中国高等学校十大科技进展(共同完成人) 2022年入选国家重大人才工程特聘教授、江苏省优秀博士学位论文指导教师 2023年 首届国际基础科学大会“前沿科学奖”
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论文著作: | ||||||
学术专著: 1. Jiang W. X. and Cui T. J. “Chapter 2: Optical Transformation Theory” in Metamaterials - Theory, Design, and Applications, Springer, 2009. 2. Cui T. J., Tang W. X., Yang X. M., Mei Z. L. and Jiang W. X.Metamaterials: Beyond Crystals, Noncrystals, and Quasicrystals. CRC Press, 2016. 3. 蒋卫祥, 崔铁军. 变换光学理论及其应用. 北京: 国防工业出版社, 2016. 4. Jiang W. X., Mei Z. L. and Cui T. J.Effective Medium Theory of Metamaterials and Metasurfaces. Cambridge University Press, 2022. 期刊论文: 1. Zhang X. G., Jiang W. X.*, Jiang H. L., Wang Q., Tian H. W., Bai L., Luo Z. J., Sun S., Luo Y., Qiu C.-W. and Cui T. J., “An optically driven digital metasurface for programming electromagnetic functions,” Nature Electronics, vol.3, pp. 165-171, 2020. 2. Jiang W. X., Qiu C.-W., Han T. C., Cheng Q., Ma H. F., Zhang S. and Cui T. J., “Broadband all-dielectric magnifying lens for far-field high-resolution imaging,” Advanced Materials, vol. 25, pp. 6963-6968, 2013. 3. Zhang X. G., Sun Y. L., Yu Q., Cheng Q., Jiang W. X.*, Qiu C.-W. and Cui T. J, “Smart Doppler cloak operating in broad band and full polarizations,” Advanced Materials, vol. 33, No. 2007966, 2021. 4. Jiang W. X., Luo C. Y., Ge S., Qiu C.-W. and Cui T. J, “An optically controllable transformation-dc illusion device,” Advanced Materials, vol. 27, pp. 4628-4633, 2015. 5. Zhang X. G., Sun Y. L., Zhu B., Jiang W. X.*, Yu Q., Tian H. W., Qiu C.-W., Zhang Z. and Cui T. J., “A metasurface-based light-to-microwave transmitter for hybrid wireless communications,” Light-Science & Applications, vol.11, No. 126, 2022. 6. Jiang W. X., Chin J. Y. and Cui T. J, “Anisotropic metamaterial devices,” Materials Today, vol. 12, pp. 26-33, 2009. 7. Jiang W. X., Qiu C.-W., Han T., Zhang S. and Cui T. J., “Creation of ghost illusions using wave dynamics in metamaterials,” Advanced Functional Materials, vol. 23, pp. 4248-4034, 2013. 8. Xu P., Tian H. W., Cai X., Jiang W. X.*and Cui T. J, “Radiation-type metasurfaces for advanced electromagnetic manipulation,” Advanced Functional Materials, vol. 31, No. 2100569, 2021. 9. Tian H. W., Zhang X. G., Jiang W. X.*, Li X., Liu Y. K., Qiu C.-W. and Cui T. J., “Programmable controlling of multiple spatial harmonics via a nonlinearly-phased grating metasurface,” Advanced Functional Materials, vol. 32, No. 2203120, 2022. 10. Tian H. W., Xu L., Li X., Jiang W. X.* and Cui T. J., “Integrated control of radiations and in-band co-polarized reflections by a single programmable metasurface,” Advanced Functional Materials, vol. 33, No. 2302753, 2023. 11. Jiang W. X., Ge S., Han T., Zhang S., Mehmood M. Q., Qiu C.-W. and Cui T. J., “Shaping 3d path of electromagnetic waves using gradient-refractive-index metamaterials,” Advanced Science, vol. 3, No. 1600022, 2016. 12. Zhang X. G., Tang W. X., Jiang W. X.*, Bai G. D., Tang J., Bai L., Qiu C.-W. and Cui T. J, “Light-controllable digital coding metasurfaces,” Advanced Science, vol. 5, No. 1801028, 2018. 13. Zhang X. G., Yu Q., Jiang W. X.*, Sun Y. L., Bai L., Wang Q., Qiu C.-W. and Cui T. J., “Polarization-controlled dual-programmable metasurfaces,” Advanced Science, vol. 7, No. 1903382, 2020. 14. Sun Y. L., Zhang X. G., Yu Q., Jiang W. X.*and Cui T. J., “Infrared-controlled programmable metasurface,” Science Bulletin, vol. 65, pp. 883-888, 2020. 15. Zhang X. G., Sun Y. L., Zhu B., Jiang W. X.*, Zhang Z. and Cui T. J., “Light-controllable time-domain digital coding metasurfaces,” Advanced Photonics, vol.4, No. 025001, 2022. 16. Bai. L., Liu Y. K., Xu, L., Zhang Z., Wang Q.,Jiang W. X.*, Qiu C. W. and Cui T. J., “A smart metasurface for electromagnetic manipulation based on speech recognition,” Engineering, vol. 22, pp. 185-190, 2023. 17. Jiang W. X., Cui T. J., Zhou X. Y., Yang X. M. and Cheng Q., “Arbitrary bending of electromagnetic waves using realizable inhomogeneous and anisotropic materials,”Physical Review E, vol.78, No. 066607, 2008. 18. Jiang W. X., Cui T. J., Yang X. M., Cheng Q., Liu R. and Smith D. R., “Invisibility cloak without singularity,” Applied Physics Letters, vol. 93, No. 194102, 2008. 19. Jiang W. X., Cui T. J., Ma H. F., Zhou X. Y. and Cheng Q., “Cylindrical-to-plane-wave conversion via embedded optical transformation,” Applied Physics Letters, vol. 92, No. 261903, 2008. 20. Jiang W. X., Cui T. J., Ma H. F., Yang X. M. and Cheng Q., “Layered high-gain lens antennas via discrete optical transformation,” Applied Physics Letters, vol. 93, No. 221906,2008. 21. Jiang W. X., Cui T. J., Cheng Q., Chin J. Y., Yang X. M., Liu R. and Smith D. R., “Design of arbitrarily shaped concentrators based on conformally optical transformation of nonuniform rational B-spline surfaces,” Applied Physics Letters, vol. 92, No. 264101, 2008. 22. Jiang W. X., Ma H. F., Cheng Q. and Cui T. J, “Illusion media: Generating virtual objects using realizable metamaterials,” Applied Physics Letters, vol. 96, No. 121910, 2010. 23. Jiang W. X., Ma H. F., Cheng Q. and Cui T. J, “A class of line-transformed cloaks with easily realizable constitutive parameters,” Journal of Applied Physics, vol. 107, No. 034911, 2010. 24. Jiang W. X., Cui T. J., Yang X. M., Ma H. F. and Cheng Q, “Shrinking an arbitrary object as one desires using metamaterials,” Applied Physics Letters, vol. 98, No. 204101, 2011. 25. Jiang W. X.and Cui T. J, “Radar illusion via metamaterials,” Physical Review E, vol. 83, No. 026601, 2011. 26. Jiang W. X., Luo C. Y., Mei Z. L. and Cui T. J., “An ultrathin but nearly perfect direct current electric cloak,” Applied Physics Letters, vol. 102, No. 014102, 2013. 27. Jiang W. X., Ge S., Luo C. and Cui T. J., “Localized transformation optics devices,” Applied Physics Letters, vol. 103, No. 214104, 2013. 28. Xu B. B., Jiang W. X.*, Meng L. L. and Cui T. J, “Transmitting information of an object behind the obstacle to infinity,” Scientific Reports, vol. 5, No.13140, 2015. 29. Jiang W. X., Bao D. and Cui T. J., “Designing novel anisotropic lenses with transformation optics,” Journal of Optics, vol.18, 044022, 2016. 30. Zhang X. G., Jiang W. X.*and Cui T. J, “Frequency-dependent transmission-type digital coding metasurface controlled by light intensity,” Applied Physics Letters, vol. 113, No. 091601, 2018. 31. Xu P., Jiang W. X.*, Wang S. Y. and Cui T. J, “An ultrathin cross-polarization converter with near unity efficiency for transmitted waves,” IEEE Transactions on Antennas and Propagation, vol. 66, pp. 4370-4373, 2018. 32. Tao Z., Jiang W. X., Ma H. F. and Cui T. J, “High-gain and high-efficiency grin metamaterial lens antenna with uniform amplitude and phase distributions on aperture,” IEEE Transactions on Antennas and Propagation, vol. 66, pp. 16-22, 2018. (共同一作) 33. Bai L., Dong H. Y., Song G. Y., Cheng Q., Huang B., Jiang W. X.*and Cui T. J, “Impedance-matching wavefront-transformation lens based on acoustic metamaterials,” Advanced Materials Technologies, vol. 3, No. 1800064, 2018. 34. Zhang X. G., Jiang W. X.*, Tian H. W. and Cui T. J, “Controlling radiation beams by low-profile planar antenna arrays with coding elements,” ACS Omega, vol. 3, pp. 10601-10611, 2018. 35. Zhang N., Jiang W. X.*, Ma H. F., Tang W. X. and Cui T. J., “Compact high-performance lens antenna based on impedance-matching gradient-index metamaterials,” IEEE Transactions on Antennas and Propagation, vol. 67, pp. 1323-1328, 2019. 36. Wang Q., Zhang X. G., Tian H. W., Jiang W. X.*, Bao D., Jiang H. L., Luo Z. J., Wu L. T. and Cui T. J., “Millimeter-wave digital coding metasurfaces based on nematic liquid crystals,” Advanced Theory and Simulations, vol. 2, No. 1900141, 2019. 37. Bai L., Song G. Y., Jiang W. X.*, Cheng Q. and Cui T. J., “Acoustic tunable metamaterials based on anisotropic unit cells,” Applied Physics Letters, vol. 115, No. 231902, 2019. 38. Tian H. W., Jiang W. X.*, Li X., Zhang X. G., Yang Z. Y. and Cui T. J., “Generation of high-order orbital angular momentum beams and split beams simultaneously by employing anisotropic coding metasurfaces,” Journal of Optics, vol. 21, No. 065103, 2019. 39. Zhang X. G., Jiang W. X.*, Tian H. W., Wang Z. X., Wang Q. and Cui T. J., “Pattern-reconfigurable planar array antenna characterized by digital coding method,” IEEE Transactions on Antennas and Propagation, vol. 68, pp.1170-1175, 2020. 40. Xu P., Jiang W. X.*, Cai X., Bai S. H. and Cui T. J., “An integrated coding-metasurface-based array antenna,” IEEE Transactions on Antennas and Propagation, vol. 68, pp. 891-899, 2020. 41. Bao J. X., Liu N., Tian H. W., Wang Q., Cui T. J., Jiang W. X.*, Zhang S. and Cao T., “Chirality enhancement using Fabry-Perot-like cavity,” Research, vol. 2020, No. 7873581, 2020. 42. Wang Q., Tian H. W., Jiang W. X.*, Chen M. Z., Zhang X. G. and Cui T. J., “An ultrawideband and dual-beam scanning array antenna charactered by coding method,” IEEE Antennas and Wireless Propagation Letters, vol.19, pp. 2211-2215, 2020. 43. Tian H. W., Shen H. Y., Zhang X. G., Li X., Jiang W. X.*. and Cui T. J., “Terahertz Metasurfaces: toward multifunctional and programmable wave manipulation,” Frontiers in Physics, vol. 8, No. 584077, 2020. 44. Xu P., Tian H. W., Jiang W. X.*, Chen Z. Z., Cao T., Qiu C.-W. and Cui T. J, “Phase and polarization modulations using radiation-type metasurfaces,” Advanced Optical Materials, vol. 9, No. 2100159, 2021. 45. Yu, Q., Zheng Y. N., Gu Z., Liu J., Liang Y. C., Li L. Z., Zhang X. G. and Jiang W. X,* “Self-adaptive metasurface platform based on computer vision,” Optics Letters, vol. 46, pp. 3520-3523, 2021. 46. Tian H. W., Jiang W. X.*, Li X., Chen Z. P. and Cui T. J, “An ultrawideband and high-gain antenna based on 3-d impedance-matching metamaterial lens,” IEEE Transactions on Antennas and Propagation, vol. 69, pp. 3084-3093, 2021. 47. Zhang Z., Jiang W. X.*, Zhang X. G., Cao W. K., Bai L., Qiu C.-W. and Cui T. J., “Efficient digital metasurfaces for full-space manipulation of acoustic waves with low crosstalk between reflection and transmission,” Material & Design, vol. 229, No. 111903, 2023. 48. Xu L., Wang D. Y., Zhang X. G., Bai L.,Jiang W. X.* and Cui T. J., “Cloud-connected networked metasurfaces for online electromagnetic manipulations,” ACS Photonics, vol. 10, pp.1558–1565, 2023. 49. Zhang X. G., Sun Y. L., Zhu B., Wang J., Zhao T., Huang Z. X. Jiang W. X.*, Huang Z., Zhang Z. and Cui T. J., “Optoelectronic metasurface for free-space optical-microwave interactions,” ACS Appl. Mater. Interfaces, 1vol. 5, pp. 22744−22751, 2023. 50. Zhang X. G., Sun Y. L., Huang Z. X. and Jiang W. X.*, “A review of light-controlled programmable metasurfaces for remote microwave control and hybrid signal processing,” Engineering Report, vol. 5, No. e123658, 2023.
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科研项目: | ||||||
项目名称 | 项目类别 | 项目时间 | 工作类别 | 项目金额 | ||
新型幻觉光学器件的机理分析和实验验证 | 国家自然科学基金面上项目 | 2012.01-2015.12 | 应用基础研究 | 63万 | ||
新型人工电磁媒质 | 国家优秀青年基金 | 2016.01-2018.12 | 应用基础研究 | 150万 | ||
基于超材料的***研究与优化 | GF合作项目 | 2020.08-2023.11 | 应用基础研究 | 165万 | ||
*** | 173重点项目课题 | 2022.08-2026.08 | 应用基础研究 | 420万 | ||
可编程超表面和量子编码超表面 | 东南大学中央高校优秀青年团队项目 | 2023.01-2024.12 | 应用基础研究 | 400万 | ||
专利: | ||||||
专利号 | 专利名称 | 专利类型 | ||||
CN202010086718.2 | 一种基于数字编码超宽带天线阵及其高精度双波束扫描方法 | 发明专利 | ||||
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CN202010493229.9 | 一种双通道独立可编程超表面及其控制方法 | 发明专利 | ||||
CN202010577541.6 | 一种基于液晶双机制高灵敏毫米波超表面传感器 | 发明专利 | ||||
CN202010493574.2 | 一种光驱动的可编程电磁超表面及其相位调控方法 | 发明专利 | ||||
CN201910675021.6 | 一种阻抗匹配高增益透镜天线及其设计方法 | 发明专利 | ||||
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CN201610865439.X | 基于人工表面等离激元的紧凑型闭环谐振器 | 发明专利 | ||||
CN201510542280.3 | 基于渐变折射率超材料的天线罩 | 发明专利 | ||||
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CN201410401944.X | 一种基于超材料的折射率梯度平板聚焦透镜 | 发明专利 | ||||
CN201410228367.9 | 一种三维放大透镜 | 发明专利 | ||||
CN200810155900.8 | 基于光学变换理论的高增益分层透镜天线 | 发明专利 |