个人简介(简历) 上海市海外高层次青年人才和浦江人才,主要从事芯片封装天线、射频电路与系统、和电磁学计算方法的研究工作,并取得了一定的成果,发表了学术论文30多篇,其中包括以第一作者发表在《IEEE Transaction on Microwave Theory and Techniques》和《IEEE Transaction on Antennas and Propagation》等专业领域国际权威期刊,担任十多个国际期刊审稿人。荣获荷语布鲁塞尔自由大学(VUB)博士最高荣誉,参与孵化了比利时Aquantis 公司,积累了丰富的产学研经验,研究成果引起社会广泛关注,包括被比利时当地多家媒体采访报道。 2020/08 至今, 上海大学, 通信与信息工程学院,特聘副研究员 2019/10至2020/07, 上海大学, 通信与信息工程学院,讲师 2013/10至2019/01, 荷语布鲁塞尔自由大学, 应用科学,博士, 导师: Johan Stiens 2010/09至2013/06, 电子科技大学, 无线电物理, 硕士学位, 导师: 王秉中 2006/09至2010/06, 电子科技大学, 真空电子技术, 学士 科研方向 (1)芯片封装天线 (2)射频电路与系统 本科生教学 研究生培养(已毕业研究生及去向) 卢钰,中电科50所,从事射频电路设计 李凤香,唯捷创芯电子技术有限公司(上海),从事射频芯片设计与应用 丁振宇,上海麓慧科技有限公司,从事射频功放芯片设计 欢迎对天线与射频技术、射频电路与系统等领域的设计研究与产业应用感兴趣的同学报考硕士研究生。 承担或参与的科研项目 (1) 国家自然科学基金青年项目(No. 62001280),“面向芯片集成的太赫兹近场超分辨率成像传感单元理论与设计”,2021.01-2023.12,在研,主持; (2) 军科委***(子课题):*********设计,2021-2024,在研,主持; (3) 上海市浦江人才计划,20PJ1404300,面向芯片集成的太赫兹近场超分辨率成像传感单元和应用,2020-2022,结题,主持; (4) 广西无线宽带通信与信号处理重点实验室主任基金项目,“面向6G宽带通信的太赫兹频扫天线研究”,2020.10-2022.09,在研,主持; (5) 上海市海外高层次人才配套项目,毫米波/太赫兹传感技术,2020-2023,在研,主持; (6) 企业横向,L+S多模卫通天线机体一体化设计,74万,2023-2024,在研,主持; (7) 军口横向,******研制,2023-2024,61万,在研,主持; (8) 布鲁塞尔自由大学(VUB)产学研项目, SRP M3D2,Generation and Processing of Large Scale Multi-dimensional, Multi-spectral, Multi-sensorial and Distributed Data,2012-01至2021-12,260万欧元,在研,参与; (9) 比利时国家自然科学基金(FWOAL682),Fundamental building blocks for real-time high-throughput (sub)-THz lab-on chip system for label-free monitoring of bio-molecular interactions,2013-01至2016-12,23万欧元,已结题,主研; (10) 比利时国家自然科学基金( FWOAL465),Scattering type near field mm-wave microscopy,2010-01至2013-12,26万欧元,已结题,参与。 学术论文及授权发明专利 1. 期刊论文 (1) G.-Q. He, Yu Lu, Tao Xu, Artur M. Pinto, Johan Stiens, Heiner Friedrich, Screen-printed graphene tailoring the amplitude of guided wave in the rectangular waveguide for millimeter wave applications. Diamond and Related Materials, 136:10996, 2023. (2) G.-Q. He, F. X. Li, Z. X. Yi, M. L. Li, X. X. Yang, and Johan H. Stiens, Modeling graphene-based THz devices with an improved surface boundary condition in leapfrog FDTD scheme, IEEE Trans. Plasma Science, 50, 5, 1369-1377 2022. (3) X. Qin, G.-Q. He*, X.-X. Yang*, S. Gao, A Compact Rectifier Design Method Utilizing Harmonics. Appl. Sci. 2021, 11, 2295. (4) F. Yu, G.-Q. He*, X.-X. Yang*, J. Du, S. Gao, Polarization-Insensitive Metasurface for Harvesting Electromagnetic Energy with High Efficiency and Frequency Stability over Wide Range of Incidence Angles. Appl. Sci., 2020, 10, 8047. (5) Z. Yin, G. He, X. Yang* and S. Gao, Miniaturized ultrawideband half-mode Vivaldi antenna based on mirror image theory, IEEE Antennas and Wireless Propagation Letters, 2020, 19(4): 695-699. (6) Guoqiang He*, Yu-Chen Zhang, Cathleen De Tandt, Johan Stiens, A fully electronically tunable millimeter wave lab-in-waveguide nano-fluidic sensor, Journal of Physics D: Applied Physics, 2019, 53(9): 095404. (7) Cheng Chen, Guoqiang He, Zhiyong Zhang*, et al., Growth mechanism of novel scaly CNFs@ZnO nanofibers structure and its photoluminescence property, Applied Surface Science, 2019, 491(15): 75-82. (8) Guo-Qiang He*, Johan H. Stiens, Wei Shao, Bing-Zhong Wang, Recursively convolutional CFS-PML in Laguerre-FDTD scheme for arbitrary media, IEEE Transactions on Microwave Theory and Techniques, 2018, 66(5): 2070-2079. (9) Guoqiang He*, Johan Stiens, Enhanced terahertz absorption of graphene composite integrated with double circular metal ring array, Plasmonics, 2018, 3(5): 1705-1710. (10) Oana. A. Barsan#; Guoqiang He#(共同一作), Hameda Alkorre, Johan Stiens, Gijsbertus de With*, Identifying anisotropy in seemingly random CNT networks using terahertz polarization, Composites Science and Technology, 2017, 151(20): 10-15. (11) Guo-Qiang He, Wei Shao*, Xiao-Hua Wang, Bing-Zhong Wang, An efficient domain decomposition Laguerre-FDTD Method for two-dimensional scattering problems, IEEE Transactions on Antennas and Propagation, 2013, 61(5): 2639-2645. (12) G. Shkerdin*, G. HE, H. Alkorre and J. Stiens, Modulation of TE Propagation Modes in Rectangular Metal Waveguide with Integrated Graphene Structure in the Sub-Terahertz Frequency Range, Journal of Optics, 2016, 19(1): 18. (13) Y. Zhang*, S. Declerck, D. Mangelings, G. HE, V. Matvejev, Y. Vander Heyden, J. Stiens, A novel label-free detector for liquid chromatography systems using mm-wave technology, Journal of Chromatography A, 2017, 1516: 79-88. (14) Xiao Ding*, Bing-Zhong Wang, and Guo-Qiang HE, Research on a Millimeter-Wave Phased Array with Wide-Angle Scanning Performance, IEEE Trans. Antennas and Propagation, 2013, 61(10): 5319-5324. (15) G. Shkerdin, H. Alkorre*, G. HE and J. Stiens, Modified TE modes of metal waveguide with integrated graphene structure in the sub-terahertz frequency range, IET Microwaves, Antennas & Propagation, 2016, 10(6): 692-699. (16) B. Zhu*, G. HE, J. Stiens, J. Albert Van Erps, W. Ranson, C. De Tandt, H. Thienpont and R. Vounckx, Resolution analysis of a polymethylmethacrylate tapered probe in near-field terahertz imaging, Applied Computational Electromagnetics Society Journal, 2015, 30(1): 30-41. (17) X. L. Ma, W. Shao*, and G. Q. HE, A novel dual narrow band-notched CPW-fed UWB slot antenna with parasitic strips, Applied Computational Electromagnetics Society Journal, 2012, 27(7): 581-586. 2. 出版专著 (1) “Bio-chemical Process Monitoring with Terahertz Sensors,” in THz for CBRN and Explosives' Detection and Diagnosis 2017, 1st ed.: Springer, 2017. (章节作者) 3 会议论文 (1) Qian-Qian Li, Hui-Rui Zhang, Zhen-Yu Ding, Na Chen, Guo-Qiang He*,Laguerre-FDTD method simulates the terahertz near-field confinement of the nano-scale metallic tip scattering with recursively convolutional CFS-PML[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), 2023. (2) Yu Lu, Zhenyu Ding, Huan Liu, Guoqiang He*, Qishun Wu, A GCPW power divider with high isolation for 24 GHz FMCW radar systems[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), 2023. (3) W. -N. Ying, T. Xu, Y. Lu, G. -Q. He* and X. -X. Yang, "A Broadband Linear to Circular Polarization Converter for 5G Millimeter Wave Communication," 2021 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, 2021 (4) Guo-Qiang HE, Tao Xu, Zi-Xuan Yi, et. al. “Reconfigurable Terahertz Dipole Antenna with Integrated Graphene Sheets,” in 2020 International Conference on Microwave and Millimeter Wave Technology, Shanghai China, Sept. 2020. (Oral presentation) (5) Guo-Qiang HE, Johan Stiens, Enhanced terahertz absorption in graphene composite integrated with double circular metal ring array, International Conference Nanomaterials and Nanotechnology 2017, Ostrava Czech Republic. (Oral presentation) (6) G. He, G. Shkerdin and J. Stiens, Phase Modulation Properties of Rectangular Metallic Waveguide with Graphene Integrated in Sub-Terahertz Wave Frequency Range, in 2016 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications, IEEE, Jul. 2016. (7) G. He, G. Shkerdin, H. Alkorre and J. Stiens, Finite-Difference Frequency-Domain Method Simulates Electromagnetic Wave Propagation Properties of Parallel Plate Waveguide with Graphene and SiO2 Layers, in 20th Symposium of the IEEE Photonics Society Benelux Chapter, Nov. 2015. (8) G. Q. He, W. Shao, and X. L. Ma, Unconditionally Stable FETD Method Using Laguerre Polynomials for Eigenvalue Problems, The 2012 IEEE International Workshop on Microwave and Millimeter Wave Circuits and System Technology. Chengdu, China, Apr. 2012. (9) B. Zhu, G. He, J. Stiens, R. Vounckx, Analysis and Optimization of a Focusing Metal-Dielectic Probe for Near-Field Terahertz Imaging, The European Microwave Conference 2013. Nuremberg, Germany, Oct. 2013. (10) Y. Zhang, S. Declerck, G. He, V. Matvejev, J. Stiens, D. Mangelings and Y. Vander Heyden, A novel label-free and universal detector for liquid chromatography systems using millimeter-wave technology, in the 39th Symposium "Chromatographic methods of investigating the organic compounds, Jun. 2016. (11) Y. Zhang, S. Declerck, S. Stroobants, G. Pandey, G. He, D. Mangelings, V. Matvejev, J. Stiens, D. Maes, S. Muyldermans, D. Mihailescu and M. Alexandra Mernea, Experimental validation of a Label-free Immobilization-free mm wave sensor in different biological and pharmaceutical applications, Mar. 2016. (12) V. Van Eeghem, K. Goossens, G. Pandey, G. He, C. De Tandt, B. Keelson, R. Willaert and J. Stiens, The impact of millimeter waves on the enzymatic activity of succinate dehydrogenase, Jun. 2016. (13) Y. Zhang, S. Declerck, G. He, V. Matvejev, Y. Vander Heyden, D. Mangelings and J. Stiens, ORAL PRES.: A novel label-free universal detector for liquid chromatography systems using millimeter-wave technology, 2016. (14) J. Stiens, V. Matvejev, Y. Zhang, G. He, C. De Tandt, D. Maes, D. Mangelings, S. Declerck, D. Mihailescu and M. Alexandra Mernea, Change detection in (bio)chemical liquids with ultrasensitive label-free and immobilization-free sensors operating the GHz-THz range, in 4th International Symposium on Sensor Science, Basel, Switzerland: MDPI AG, Jul. 2015. (15) J. Stiens, W. Vandermeiren, V. Matvejev, C. De Tandt, W. Ranson, R. Vounckx, B. Zhu, A. Pourkazemi, H. Alkorre, G. Pandey, A. Anthoula and G. He, Sensing in the GHz-THz range @ ETRO-VUB: Beyond the Conventional Limits, in International Conference on Semiconductor Mid-IR Materials and Optics SMMO2014, Mar. 2014. 4. 申请和授权发明专利 (1)何国强,谢宁杰,杨雪霞,一种非接触式的危险液体电磁检测系统及方法,2020年,(已授权,专利号:CN111474590A) (2)何国强,徐涛,杨雪霞,一种极化和相位360度可调的天线透镜单元,2022年,(已授权,专利号:CN112332106A) (3)何国强,徐涛,杨雪霞,一种通过多焦点相位分布的平面透镜波束扫描天线系统与方法,2023年,(已授权,专利号:ZL 2021 1 1261981.1) (4)杨雪霞,楼天,何国强,一种双频双圆极化天线阵列,2022年,(已授权,专利号:2020111795031) (5)杨雪霞,楼天,何国强,陈智慧,一种共口径低剖面双频双圆极化天线结构,2022年,(已授权,专利号:202110166538X) (6)何国强,丁振宇,一种具有高阶谐波抑制的磁谐振近场超分辨率传感单元,2023年,(已公开,专利申请号:202310075527X) (7)何国强,崔泽红,张志发,一种平面化的低剖面超宽带紧耦合宽角扫描阵列天线,2023年,(已公开,专利申请号:202310509897X) (8)何国强,卢钰,杨雪霞,一种具有相控阵天线的雷达测量物料三维物位传感器系统, 2020年,(专利申请号:202011220985.0) |