黄惠芬_华南理工大学黄惠芬导师简历

黄惠芬

姓名	黄惠芬
性别	女
学校	华南理工大学
部门	华南理工大学电子与信息学院
学位	教授
学历	教授
职称	教授
联系方式	实用新型1875包写包过
邮箱	huanghf@scut.edu.cn

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更新日期：2024年3月17日姓名黄惠芬性别女出生年月 1969年4月籍贯湖南常德市民族汉族政治面貌中国共产党党员最后学历博士研究生最后学位工学博士技术职称教授导师类别博、硕导行政职务 Email huanghf@scut.edu.cn 工作单位华南理工大学电子与信息学院邮政编码通讯地址单位电话 15360068207 个人简介黄惠芬：博士，教授，博士生导师。1992 年中国纺织大学获学士学位，1998 年华南师范大学物理系获硕士学位，2001-2004年上海交通大学电子工程系博士毕业，2004-2006 年在日本东芝研究与发展中心从事芯片封装设计研发工作，2007 年通过海外人才引进到华南理工大学。2013年-2014年日本东北大学访问学者。工作经历 1998-2000年广东教育学院物理系，讲师2004-2006年日本东芝研究与发展中心，工程师2007-现在华南理工大学电子与信息学院，教授教育经历 1988-1992年，中国纺织大学，学士。1995-1998年，华南师范大学物理系，硕士。2001-2004年，上海交通大学电子工程系，博士。获奖、荣誉称号 2006年，上海市优秀博士论文研究领域研究方向：电磁场、电磁波、天线、电磁兼容1、硬件方向：太赫兹近场通信、超表面、移动通信天线、物联网天线、微波无源器件、高速集成电路互连与电磁兼容。2、软件-硬件智能化方向：波束赋形、近场赋形、电磁成像及精确定位、稀疏阵列。用到神经网络，遗传算法等智能算法。科研项目 1、射频异质异构集成全国重点实验室（深圳大学）开放课题，重点项目，项目号：202306，2024,1-2025,12，30万，在研，主持。2、国家自然科学基金重点项目，2020-2025年，50万/375万，异频共口径大规模阵列天线理论与关键技术，在研，参与。3、广东省自然科学基金重点项目，2018-2022年，50万，磁场消逝波聚焦放大磁环偶极子透镜天线及相关应用研究，结题，主持。4、横向项目，无人机电磁兼容仿真，2022年1月-2022年月12月，5万，结题，主持。5、广东省自然科学基金，2016A030313462，基于球面波理论近场电磁能量传输与接受及相关应用研究。2016/01-2018/12，在研，主持。6、广东省教育厅特色创新项目：2014KTSCX017，基于球形模理论的球面螺旋电小天线中距离无线能量传输研究省级，2015/01-2017/12，结题，主持。7、国家自然科学基金面上项目：61071056 基于构形理论设计高速集成电路电源网络， 2010/01-2013/12，35万元，结题，主持。发表论文期刊：1.Wideband Multifunctional Bessel Beams by High Efficiency Spin-decoupled Metasurface for Near Field Applications, PIERL, Vol. 116, page 47-53, 2024.2.HuiFen Huang and JianYuan Wang,“ Switchable Terahertz Orbital Angular Momentum Bessel Beams Based on Spin-decoupled Multifunctional Reflective Metasurfaces,” Optics Express. DOI 10.1364/OE.503106. Journal: Optics Express, OCTOBER 2023,Volume: 31, Issue: 21, 34855-34870.3.HuiFen Huang and XiuLing Tang,” Wideband Multiple Bessel beams with Desired Directions and Energy Distribution Proportion Based on Time Reversal and Genetic Algorithm in Microwave,” IEEE Transactions on Magnetics. DOI 10.1109/TMAG.2023.3268371. Journal: IEEE Transactions on Magnetics, JUNE 2023, Volume: 59, Issue: 6, 2800209.4.Hui-Fen Huang* and Hong-Ming Huang, “Millimeter-wave Wideband High Efficiency Circular Airy OAM Multibeams with Multiplexing OAM Modes Based on Transmission Metasurfaces,” Progress In Electromagnetics Research, vol. 173, pp. 151-159, 2022.5.Hui-Fen Huang* and Jun-jie Ye,"Reconfigurable reflective multifunction OAM metasurface based on spin-decoupling", Optics Letters, Vol. 47,4873-4876,20226.Hui-Fen Huang* and Shu-Hui Xie, “Beam‐steering orbit angular momentum vortex waves by mechanically rotating transmitarray” , International Journal of RF and Microwave Computer-Aided Engineering,2022, e23482. 7.Hui-Fen Huang* and Shu-Hui Xie, “Mode-switchable Orbit Angular Momentum Waves by Mechanically Rotating 2 Bit Phase Quantization Transmitarray,” International Journal of RF and Microwave Computer-Aided Engineering, 2022.8.Hui-Fen Huang* and Jian Zhang, “A single-layer dual-polarization transmission metasurface for multi-feeds and multi-focus,” International Journal of RF and Microwave Computer-Aided Engineering,2022;e23155. 9.Huang hui fen, Zhang jian, "High-Efficiency Multifunction Metasurface Based on Polarization Sensitivity", IEEE Antennas and Wireless Propagation Letters ( Volume: 20, Issue: 8, Aug. 2021), pp.1508-1512.10.Huang H F, Xie S H. "Single-layer substrate wideband reflectarray with dual-polarization for multiple OAM beams". OSA Continuum, 2021, 4(8): 2082-2090.11.Hui-Fen Huang* and Qi-Sheng Fan, “Low Divergence Angle OAM Fabry-Perot Antenna with Nonuniform Superstrate,” Progress In Electromagnetics Research Letters, Vol. 99, 55–63, 2021. 12.Huifen Huang, Haiyang Wen, “Miniaturized reconfigurable tri-polarization metantenna based on characteristic mode analysis with high-aperture efficiency,” Int J RF Microw Comput Aided Eng. 2021, pp.1-11.5.Hui-fen Huang* and Qi-sheng Fan, “Broadband and High-Aperture Efficiency Fabry-Perot Antenna with Low RCS Based on Nonuniform Metamaterial Superstrate,” Progress In Electromagnetics Research M, Vol. 101/18 February 2021/, 59-68.6.Huifen Huang, Jian Zhang, “Multifunctional near field focusing transmission metasurface based on polarization sensitivity,” Microw Opt Technol Lett. 2021;63:1868–1874.7.Hui-Fen Huang* and Hong-Long Bu，“Electrically Small Radiation Pattern Reconfigurable Antenna with Expanded Bandwidth and High Front-to-Back Ratio，“Progress In Electromagnetics Research M, Vol. 103, 103–113, 2021.8.HuiFen Huang | ZhiPing Zhang, “A single fed wideband mode-reconfigurable OAM metasurface CP antenna array with simple feeding scheme,” Int J RF Microw Comput Aided Eng., DOI: 10.1002/mmce.22499. 24 November 2020.9.Hui-Fen Huang* AND Shuai-Nan Li，"Single-layer dual-frequency unit for multifunction OAM reflectarray applications at microwave range, " Optics letters, Vol. 45, No. 18 / 13 September 2020 / Optics Letters，pp.1-5.10.Hui‐Fen Huang ，ZhiPing Zhang，A small single fed broadband circularly polarized slot antenna, Int J RF Microw Comput Aided Eng., 03 January 2020，pp.1-9.11.Hui-Fen Huang* AND Shuai-Nan Li，A Novel Single-Layer Anisotropic Unit for Transmit-Reflect Double Function Array,” Progress In Electromagnetics Research M, Vol. 95, 155–163, 2020.12.Huifen Huang and Zhiping Zhang, "A Novel Open Drum Shaped Ultrasensitive Permittivity and Permeability Sensor Based on Electric–Magnetic Toroidal Dipole," IEEE sensors letters,vol.3, no. 6, Jun. 2019.13.Hui-Fen Huang and Shuai-Nan Li, "High-Efficiency Planar Reflectarray With Small-Size for OAM Generation at Microwave Range,"IEEE Antennas and Wireless Propagation Letters , Vol. 18 , 432-436, 2019.14.Huang, HuiFen Wang, Bin, An enhanced circular polarization near-field focused antenna array by director patches， Microwave and Optical Technology Letters , Microw Opt Technol Lett. 2019;61:217–222. 15.Huifen Huang* and Sun Shuai, “Wideband Mushroom Composite Right/Left Handed Transmission Line Antenna with Cavity-Backed Substrate Integrated Waveguide,” Progress In Electromagnetics Research Letters, Vol. 80, 83–89, 2018. 16.HF Huang ， SG Xiao ，” A COMPACT POLARIZATION DIVERSITY UWB MIMO ANTENNA WITH A FORK-SHAPED DECOUPLING STRUCTURE,” 《Progress in Electromagnetics Research Letters》 , 2017 , 69 :87-92.17.Huang Hui fen Ting Li, A Minimized 2-D Left-Handed Material Spiral Unit Cell With Rotation Symmetry for Midrange Wireless Power Transfer," IEEE Microwave & Wireless Components Letters , Vol.27, No.10, PP. 882 - 884, Oct. 2017.18.HF Huang ， B Wang, "A Reconfigurable Dual-Broadband Circularly Polarized Antenna by Orthogonal Slot Technique for RFID Reader", Progress In Electromagnetics Research Letters, Vol. 68, 105-111, 2017 19. HF Huang ， B Wang, "A Simple V-Shaped Slot Antenna with Broadband Circular Polarization", Progress In Electromagnetics Research Letters, Vol. 67, 67-73, 2017.20.Hui-Fen Huang and Shu-Guang Xiao, "Compact UWB MIMO Ground Linearly Tapered Slot Antenna Decoupled by a Stepped Slot," Progress In Electromagnetics Research C, 2017, Vol. 71, 17–23.21.Huifen Huang, Li Su, "A Compact Dual-Polarized Chipless RFID Tag by Using Nested Concentric Square Loops, " IEEE Antennas and Wireless Propagation Letters, 2017, Vol.16, PP: 1036 - 1039. 22.Hui-fen Huang; Ting Li,"A Spiral Electrically Small Magnetic Antenna With High Radiation Efficiency for Wireless Power Transfer", IEEE Antennas and Wireless Propagation Letters, vol. 15, 2016, pp. 1495-1498.23.Hui-Fen Huang and Shu-Guang Xiao, "MIMO ANTENNA WITH HIGH FREQUENCY SELECTIVITY AND CONTROLLABLE BANDWIDTH FOR BAND-NOTCHED UWB APPLICATIONS，" Microwave and Optical Technology Letters,Vol. 58, No. 8, August 2016, pp.1886-1891. 24. Hui-Fen Huang and Shu-Guang Xiao, "COMPACT MIMO ANTENNA FOR BLUETOOTH,WIMAX,WLAN AND UWB APPLICATIONS," Microwave and Optical Technology Letters, Vol.58, No. 4, April 1, 2016, pp. 783-787.25.H.-F. Huang and S.-G. Xiao, "Compact triple band-notched UWB MIMO antenna with simple stepped stub to enhance wideband isolation," Progress In Electromagnetics Research Letters, Vol. 56, 2015 59-65.26.H.F Huang and W. Zhao, “Small-Size 11-Band LTE/WWAN/WLAN Planar Handset Antenna,” Progress In Electromagnetics Research Letters, Vol.54, Jun. 2015, pp.39–45. 127.H.F Huang and J.F Wu, "Decoupled Dual-Antenna With Three Slots and a Connecting Line for Mobile Terminals," IEEE Antennas Wireless Propag. Lett. vol.14,2015, pp.1730-1733. 128.H.F Huang and T L, "DECOUPLED HEPTA-BAND ANTENNA ARRAY WITH THREE SLOTS FOR WWAN/LTE MOBILE TERMINALS," Progress In Electromagnetics Research Letters, Vol. 56, 2015, pp. 81-87.29.黄惠芬，赵威，"PLANAR TRIPLE-BAND ANTENNA FOR LTE/GSM/UMTS AND WLAN/WiMAX MOBILE DEVICE APPLICATIONS," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, Vol. 57, No. 10, May, 2015, pp. 2277-2281.30.黄惠芬，吴俊峰，" Small-Size Antenna for Seven-Band WWAN/LTE Mobile Handset," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, Vol. 57, No. 5, May 2015, pp.1029–1033.31.Hui-Fen Huang and Yuan-Hua Hu, " A Compact Dual-Band Printed Monopole Antenna for WiMAX/WLAN Applications," Progress In Electromagnetics Research Letters, Vol. 49, 2014, pp.91-97,.432.Hui-Fen Huang and Wei Zhao, "A Small Size Three-Band Multi-Functional Antenna for LTE/GSM/UMTS/WIMAX Handsets," Progress In Electromagnetics Research Letters, Vol. 49, 2014, pp. 105–110.33.Hui-Fen Huang* and Shao-Fang Zhang, " Compact multiband monopole antenna for WLAN/WiMAX applications," Microwave and Optical Technology Letters Vol. 56, No.8, August 2014, pp.1809–1812. 2034.H.-F. Huang and Z. Lv, "A Spiral Antenna with Integrated Parallel-Plane Feeding Structure," Progress In Electromagnetics Research Letters, Vol. 45, 2014, pp. 45–50. 535.H.-F. Huang and Z. Lv, "A New Spiral Antenna with Improved Axial Ratio and Shorted Arm Length," Progress In Electromagnetics Research C, Vol. 46, 2014, pp.83-89. 436.Hui-Fen Huang, Liang-Yong Deng, Bin-Jie Hu, and Gang Wei, "Techniques for Improving the High Frequency Performance of Planar CM EMI Filter，IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY,".　2013,10. Vol.55, No.5, Oct. 2013, pp. 901 – 908. 637.黄惠芬，张少芳, "REFLECTOR WITH DESIGNED EBG CELLS FOR ULTRA WIDEBAND ANTENNA PERFORMANCE IMPROVEMENT," Microwave and Optical Technology Letters, 55(11), 2013, pp 2541-2544.38.黄惠芬，叶茂, "PARASITIC CAPACITANCE CANCELLATION OF INTEGRATED CM FILTER USING BI-DIRECTIONAL COUPLING GROUND TECHNIQUE," Progress In Electromagnetics Research B, Vol.52, 2013, pp 19-25. 科研创新专利：1.黄惠芬，谢书慧；一种宽带双极化多波束轨道角动量天线及通信设备, 发明专利，申请号202110547030.4, 2.黄惠芬，张健；双频双极化多功能透射和反射型超表面天线及通信设备, 实用专利，申请号202121115906.X, 授权 2021-10-21.3.黄惠芬，谢书慧；一种宽带双极化多波束轨道角动量天线及通信设备, 实用专利，申请号202121074030.9, 授权 2021-10-21。4.黄惠芬，张健；双频双极化多功能透射和反射型超表面天线及通信设备, 发明专利，申请号202110565317.X,5.黄惠芬，张志平，叶君杰，一种模式可重构的OAM圆极化天线及无线通信设备，专利号，ZL 202022925090.9,专利申请时间2020,12,9，实用新型受权6.黄惠芬, 张志平，叶君杰，一种模式可重构的OAM圆极化天线及无线通信设备，发明专利，申请号：202011427280.6，申请时间：2020，12，09。7.黄惠芬，李帅男；一种双频双极化多功能轨道角动量天线, CN202010652358.8, 2020.07.08,发明专利。8.黄惠芬，李帅男；一种双频双极化多功能轨道角动量天线,申请号202021325485.99.黄惠芬张健，一种双极化平面透射型聚焦超表面天线 [发明]，申请号：CN202010653458.210.黄惠芬张健，一种双极化平面透射型聚焦超表面天线，实用新型。申请号20202135460.9。11.黄惠芬，李帅男；一种高口径效率多极化平面反射型轨道角动量天线；申请号： CN201821827866.X 实用新型受权12.黄惠芬, 张志平. 一种新型磁环偶极子聚焦放大谐振腔，实用新型专利.2017. 专利号：CN201721569656.0,受权。13.黄惠芬, 张志平. 一种新型磁环偶极子聚焦放大谐振腔. 发明专利. 2017. 专利号：CN201711171557.1，在审.14.黄惠芬，王彬-一种基于正交缝隙技术的可重构宽带双频圆极化RFID阅读器天线，中国发明专利，201710439409.7（已受理）15.黄惠芬，王彬-一种基于V型缝隙的宽带圆极化天线，中国发明专利，201710441206.1（已受理）16.黄惠芬，王彬-一种倾斜椭圆单极子宽带圆极化天线，中国发明专利，201710444943.7（已受理）17.黄惠芬，王彬-一种基于正交缝隙技术的可重构宽带双频圆极化RFID阅读器天线，中国实用新型专利，201720677386.9（已受理）18.黄惠芬，王彬-一种基于V型缝隙的宽带圆极化天线，中国实用新型专利，201720680845.9（已受理）19.黄惠芬，王彬-一种倾斜椭圆单极子宽带圆极化天线，中国实用新型专利，201720677836.4（已受理）20.黄惠芬，罗波，“一种小型化低频磁环形矩近磁场聚焦放大透镜” 实用新型 201720170349.9，（已公开，已授权）。21.黄惠芬，罗波，“一种小型化低频磁环形矩近磁场聚焦放大透镜”，发明201710102586.622.黄惠芬，罗波，“一种利用磁环偶极子聚焦放大近磁场的平面结构”，发明 201710102836.623.黄惠芬，罗波，“一种利用磁环偶极子聚焦放大近磁场的平面结构”，实用新型 201720170224.6，（已公开，已授权）。24.黄惠芬，苏丽， “一种新型产生双模光学涡旋光束圆极化阵列天线” 中国发明专利，ZL 2016 2 1325495.6（已公开，未授权）。25.黄惠芬，孙帅“一种小型超宽带MIMO直线渐变式缝隙天线，”中国实用新型专利，ZL 201621263068.X（已公开，已授权）26.黄惠芬，罗波，“一种等效介电常数与负等效磁导率均为负的新型超材料”，实用新型 201621208349.527.黄惠芬，罗波，“一种等效介电常数与负等效磁导率均为负的新型超材料”，发明 201610938089.5。28.黄惠芬，苏丽，“一种高容量及金属不敏感的双层无芯标签天线”，实用新型，201621325495.6。29.黄惠芬，苏丽，“一种高容量及金属不敏感的双层无芯标签天线”，发明，201611106834.6。30.黄惠芬，苏丽，“一种基于同轴矩形环的双极化无芯片RFID标签天线”，实用新型，201621187617.X。31.黄惠芬，苏丽，“一种基于同轴矩形环的双极化无芯片RFID标签天线”，发明，201610963192.5。32.黄惠芬，孙帅，“一种小型超宽带直线渐变式缝隙天线”，发明，201611041726.5。33.黄惠芬，孙帅，“一种小型超宽带直线渐变式缝隙天线”，实用新型，201621263068.X。34.黄惠芬，吴俊锋 “一种覆盖七频段的小型移动通信设备天线，”实用新型专利，ZL 201520133234.3 授权日期：2015.07.29（已授权）35.黄惠芬，吴俊锋 “一种覆盖七频段的小型移动通信设备天线，”中国发明专利，ZL 201510102789.6 （已公开，授权） 36.黄惠芬，吴俊锋“一种利用三条缝隙解耦的MIMO天线，”实用新型专利，ZL 201520133232.4 授权日期：2015.07.01（已授权）37.黄惠芬，吴俊锋“一种利用三条缝隙解耦的MIMO天线，”中国发明专利，ZL201510102787.7 （在审） 38.黄惠芬，肖书光“一种中距离无线能量传输柱面螺旋电小天线，”实用新型专利，ZL 201520105030.9 授权日期：2015.07.01（已授权）39.黄惠芬，肖书光“一种中距离无线能量传输柱面螺旋电小天线，”中国发明专利，ZL201410077146.0（已公开，未授权）40.黄惠芬，肖书光“一种小型三频四单元MIMO天线，”实用新型专利，ZL 201521004952.741.授权日期：2016.05.04（已授权）42.黄惠芬，肖书光“一种小型三频四单元MIMO天线，”中国发明专利，ZL 201510895650.143.（已公开，未授权）44.黄惠芬，肖书光“一种用于WLAN及WIMAX的三通带MIMO天线，”实用新型专利，ZL 201521004383.6 授权日期：2016.05.04（已授权）45.黄惠芬，肖书光“一种用于WLAN及WIMAX的三通带MIMO天线，”中国发明专利，ZL 201510890584.9（已公开，未授权）46.黄惠芬，肖书光“一种新型超宽带MIMO天线，”实用新型专利，ZL 201521004456.1 授权日期：2016.05.04（已授权）47.黄惠芬，肖书光“一种新型超宽带MIMO天线，”中国发明专利，ZL 201510890640.9（已公开，未授权）48.黄惠芬，肖书光“一种陷波带宽可控的UWB MIMO天线，”实用新型专利，ZL 201521004846.5 授权日期：2016.05.04（已授权）49.黄惠芬，肖书光“一种陷波带宽可控的UWB MIMO天线，”中国发明专利，ZL 201510889869.0（已公开，授权）教学活动本科生教务：1、电磁场与电磁波2、电磁场3、集成电路互连与电磁兼容硕士生教务：集成电路互连与电磁兼容