姓名： 彭麟
正高级 男 桂林电子科技大学信息与通信学院 邮箱:penglin@guet.edu.cn





研究领域电磁超构表面/太赫兹技术，天线理论与设计，复合左/右手传输线技术，生物电磁学。;生物电磁学;;
个人简介

欢迎对电磁学感兴趣,并对做学术研究有兴趣的的同学报考，本校考生欢迎提前来参观了解。
对考生的几点要求：
1）已通过英语四六级；专业基础好，有专业研究兴趣的同学英语可降低要求到四级；
2）本科专业：物理类、数学、电子科学与技术、电磁场与微波技术、通信工程、电子信息工程、电子信息科学与技术等等等相关专业，学习过《电磁场与电磁波》或《电动力学》和《微波技术》等课程；
3）不能做事认真，不能勤奋刻苦，没有进取心，想混毕业的同学千万别报考本人，以免双方都痛苦；导师是要付出很多时间/精力/资源来培养一个学生的，我希望这些能用到想学习做研究的同学身上！！！
4) 再强调一次，不能做事认真，不能勤奋刻苦，没有进取心，想混毕业的同学千万别报考本人，以免双方都痛苦；导师是要付出很多时间/精力/资源来培养一个学生的，我希望这些能用到想学习做研究的同学身上！！！
5) 重要的事情说三篇，不能做事认真，不能勤奋刻苦，没有进取心，想混毕业的同学千万别报考本人，以免双方都痛苦；导师是要付出很多时间/精力/资源来培养一个学生的，我希望这些能用到想学习做研究的同学身上！！！
最后，祝各位同学学有所成！
注：联系本人者一定要有一份非常详细的简历，包括考研科目和成绩，本科成绩单，四六级证书等材料，以及硕士学习计划和未来工作构想。
简历不详细者恕不回复。
联系邮箱：penglin@guet.edu.cn
彭麟，男，广西人，IEEE Member，中国电子学会高级会员。自2001年起在电子科技大学求学十余载，分别于2005年、2008年和2013年获学士、硕士和博士学位（导师：阮成礼教授）；期间2011.08-2013.02在美国休斯敦大学师从国际电磁学界著名****IEEE Fellow， David R Jackson教授学习研究。本人自2013年7月到桂林电子科技大学工作。 科研成果：1）项目：主持项目：中央高校基本科研业务费基金项目（已结题），国家自然科学基金（在研）， 参与项目：国防探索项目（已结题），国防预研项目（已结题），此外读研期间亦参与多个横向课题； 2）学术论文：在包括IEEE Transaction on Microwave Theory and Techniques, IEEE Transactions on Antennas and Propagation,IEEE Antennas and Wirelessn Propagation Letters和IEEE/OSAJournal of Lightwave Technology在内的二十余国际期刊上发表第一/通信作者学术论文数十篇，并获得较好的引用率，H指数15； 3）专利：国家发明/国防专利10项，其中5项已授权。 此外本人亦担任IEEE Transaction on Microwave Theory and Techniques，IEEE Transactions on Antennas and Propagation,IEEE Microwave and wireless components letters等10多个国际期刊的审稿人
教育背景

1) 2011年8月-2013年2月, CSC公派联合培养博士, 美国休斯敦大学(University of Houston), 电磁场与微波理论 （师从IEEE Fellow，David R Jackson教授）
2) 2008年8月-2013年6月, 博士, 电子科技大学, 无线电物理.（师从阮成礼教授）
3) 2005年8月-2008年6月, 硕士, 电子科技大学，无线电物理. （师从阮成礼教授）
4) 2001年8月-2005年6月, 本科, 电子科技大学，电子信息科学与技术 专业.
工作经历

2013/07 桂林电子科技大学， 信息与通信学院
主要荣誉

学术活动

A．学术期刊副主编（Associate Editor）
(1) IEEE Access
B．特邀报告
（1）2019全国天线年会，“宽带单负材料对共形阵的降耦及方向图综合效应的研究”（2019.07）
C．学术会议分会主席（Session Chair）

Session Chair for 2016 the 11th International Symposium on Antennas, Propagation and EM Theory (ISAPE2016),（2016.10）

Session Chair for International Conference on Microwave and Millimeter Wave Technology (ICMMT2018),（2018.05）

全国天线年会（2019.07）
D．审稿人

IEEE Transactions on Microwave Theory and Techniques 杂志审稿人

IEEE Transactions on Antennas and Propagation 杂志审稿人

IEEE Microwave and wireless components letters 杂志审稿人

IEEE Antennas and Wireless Propagation Letters 杂志审稿人

IEEE ACCESS杂志审稿人

IET Microwave, Antennas & Propagation杂志审稿人

Electronics Letters杂志审稿人

IET Communications杂志审稿人

Wireless Personal Communications 杂志审稿人

Progress in Electromagnetics Research 系列期刊审稿人

Journal of Electromagnetic Waves and Applications? 杂志审稿人

The Applied Computational Electromagnetic Society杂志审稿人

International Journal of RF and Microwave Computer-Aided Engineering杂志审稿人

IETE Technical Review杂志审稿人

Frequenz杂志审稿人

《电波科学学报》审稿人

Superlattices and Microstructures

Journal of Electrical Engineering & Technology

Optics Communications

International Journal of Electronics Letters

教学信息

主讲本科生课程：《电磁场与电磁波》、《微波技术与天线》、《射频电路设计及CAD》、《电磁场与微波技术》、《计算机基础》
主讲研究生课程：《电磁辐射与散射》、《微波实验》、《专业英语》
指导本科毕业设计：5-8人/年
指导本科课程设计：10-20人/年
部分论文(*通讯作者)

一作/通信作者论文（期刊）
[1] Xiao Liu(学生), Lin Peng*, Yan-fang Liu, Wei-sheng Yu, Qi-xiang Zhao, Xing Jiang, Si-min Li, and Cheng-li Ruan. Ultra-broadband All Dielectric Transmitarray Designing Based on Genetic Algorithm Optimization and 3D Print Technology. IEEE Transactions on Antennas and Propagation, DOI (identifier) 10.1109/TAP.2020.**, 2020
[2] Zhi-peng Li(学生), Lin Peng*, Jing Ma, Bin Shi, Qi-xiang Zhao, Xing Jiang, and Si-min Li. A Low-profile and Wideband Gain Enhanced Fabry-Perot Cavity Antenna Using Gradient PRS and AMC. accepted, IET Microwaves, Antennas & Propagation, 2020, DOI: 10.1049/iet-map.2019.1129
[3] Lin Peng*, Bing-Zhong Wang, Xing Jiang, Si-min Li, and Cheng-li Ruan. Polarization and bandwidth improvements of a ZORs loaded microstrip antenna with grid polarization filter cover and metallic cavity. International Journal of RF and Microwave Computer-Aided Engineering, vol. 30, pp. e22445 (1-9), 2020.
[4] Jian-yi Chu(学生), Lin Peng^*, Xiao-feng Li and Xing Jiang. Archimedean Spiral Antenna Loaded by Frequency Selective Surface. Progress In Electromagnetics Research M (PIER M), vol. 95, pp. 199-209, 2020
[5] Xiao-feng Li, Yan-ru Hua, Bao-jian Wen, Lin Peng^*, and Xing Jiang. Design of a directional antenna based on a resonance based reflector and its applications on bio-electromagnetics. Progress In Electromagnetics Research M (PIER M), Vol. 93, page 165-174, 2020
[6] J. Y. Mao(学生), L. Peng^*, J. Ma, B. Shi, Q. X. Zhao, X. F. Deng, X. F. Li, X. Jiang, and S. M. Li. A Novel Antipodal Vivaldi Antenna Loaded by Linear Array of Sandglass-Type Directors for Wideband Radiation Characteristics Improvement. Microwave and Optical Technology Letters, vol. 61, no. 10, pp. 2354-2359, 2019.
[7] X. Liu(学生), L. Peng*, J. Ma, B. Shi, X. Jiang, and S. M. Li. Quasi-2D Hyperbolic Metamaterial for Mid-Infrared Wave Multiple Collimations. IEEE Transactions on Nanotechnology, vol. 18, pp. 542-551, 2019.
[8] F. M. Yang(学生), L. Peng^*, X. Liao, K. S. Mo, X. Jiang, and S. M. Li. Coupling reduction for wideband circularly polarized conformal array antenna with Single-negative structure. IEEE Antennas and Wirelessn Propagation Letters. vol. 18, no. 5, pp. 991-995, 2019.
[9] B. J. Wen(学生), L. Peng^*, X. F. Li, K. S. Mo, X. Jiang, and S. M. Li. A Low-profile and Wideband Unidirectional Antenna using Bandwidth Enhanced Resonance-based Reflector for Fifth Generation (5G) Systems Applications. IEEE Access. Vol. 7, no. 1, pp. 27352-27361, 2019.
[10] L. Peng^*, X. F. Li, X. Gao, X. Jiang, and S. M. Li. Methodology for the design of multi-functional device with switchable absorption and polarization conversion modes by graphene and metallic metasurfaces. Optical Materials Express, vol. 9, no. 2, pp. 687-705, 2019.
[11] L. Peng^*, X. M. Li, X. Liu, X. Jiang, and S. M. Li. Metal and graphene hybrid metasurfaces designed ultra-wideband terahertz absorber with polarization and incident angle insensitivity. Nanoscale advances, DOI: 10.1039/C8NA00149A, 2019.
[12] J. K. Wang(学生), X. Jiang^*, L. Peng^*, X. M. Li, H. J. An, B. W. Wen. Detection of Neural Activity of Brain Functional Site Based on Microwave Scattering Principle. IEEE Access, vol. 7, pp. 13468-13475, 2019
[13] Y. W. Deng(学生), L. Peng^*, X. Liao, X. Jiang. An Ultra Broadband terahertz Absorber Based on Co-planar Graphene and gold Hybridized Metasurface. Plasmonics, DOI: 10.1007/s11468-018-0893-1, 2018.
[14] X. F. Li, L. Peng^*, J. Ma, B. Shi, X. M. Li and X. Jiang. MZR Resonators Etched in Microstrip Patch with Enhanced Bandwidth and Reduced Size. Progress In Electromagnetics Research M (PIER M), vol. 76, pp. 197-205, Dec. 2018.
[15] L. Peng*, X. Jiang and S. M. Li. Multi-functional Device with Switchable Functions of Absorption and Polarization Conversion at Terahertz Range. Nanoscale research letters, 13(1):385, 2018.
[16] L. Peng^*, X. F. Li, X. Jiang and S. M. Li. A Novel THz Half-wave Polarization Converter for Cross-Polarization conversions of Both Linear and Circular Polarizations and Polarization Conversion Ratio Regulating by Graphene. Journal of Lightwave Technology, vol. 36, no. 19, pp. 4250-4258, Oct. 2018.
[17] K. Sun(学生), L. Peng^*, Q. Li, X. M. Li and X. Jiang. Compact zeroth-order resonance loaded microstrip antenna with enhanced bandwidth for Wireless Body Area Networks/brain activity detection. Applied Computational Electromagnetics Society Journal, vol. 33, no. 6, pp. 631-640, June 2018.
[18] 谢继杨(学生)、彭麟*、温保健、姜兴。基于谐振式反射器的UHF/S双频双定向蝶形天线，电波科学学报，第32卷、第6期，pp. 742-750, Dec. 2017。
[19] K. Sun(学生), L. Peng^*, Q. Li, and X. Jiang. T/L Shaped Zeroth-Order Resonators Loaded Microstrip Antenna With Enhanced Bandwidth For Wireless Applications, Progress In Electromagnetics Research C (PIER C), vol. 80, pp. 157-166, 2018.
[20] L. Peng^*, F. M. Yang and X. Jiang. Simple and Electrically Small EZR-MZR Resonator with Quasi-Isotropic pattern. IEEE Journal of Radio Frequency Identification , vol. 1, no. 2, pp. 170-175, 2017.
[21] J. Y. Xie(学生), L. Peng^*, B. J. Wen and X. Jiang. Archimedean Spiral Antenna with Two Opposite Uni-directional Circularly Polarized Radiation Bands Designed by Resonance based Reflectors. Progress In Electromagnetics Research Letters, Vol. 70, pp. 23-30, Aug. 24, 2017.
[22] L. Peng^*, J. Y. Xie, X. F. Li and X. Jiang. Front to Back Ratio Bandwidth Enhancement of Resonance Based Reflector Antenna by Using A Ring-shape Director And Its Time-Domain Analysis. IEEE Access, Vol. 5, pp. 15318-15325, Aug. 2017.
[23] L. Peng^*, K. Sun, X. Jiang, S. M. Li and C. L. Ruan. EZR-MZR Resonators for Compact Low-profile Omni-directional Circular-polarized Antenna Design. IEEE Photonics Journal, Vol. 9, No. 4, **-1-15, 2017.
[24] L. Peng^*, J. M. Mao, X. F. Li, X. Jiang and C. L. Ruan. Bandwidth enhancement of microstrip antenna loaded by parasitic zeroth-order resonators. Microwave and Optical Technology Letters, Vol. 59, No. 5, pp. 1096-1100, 2017.
[25] L. Peng^*, B. J. Wen, X. F. Li, X. Jiang and S. M. Li. CPW Fed UWB Antenna by EBGs with Wide Rectangular Notched-band. IEEE Access, VOL. 4, 2016, PP. 9545-9552.
[26] L. Peng^*, J. Y. Xie, K. Sun, X. Jiang and S. M. Li. Resonance-Based Reflector and Its Application in Unidirectional Antenna with Low-Profile and Broadband Characteristics for Wireless Applications. Sensors, 16(12): 2092.
[27] L. Peng^*, J. Y. Xie, X. Jiang and C. L. Ruan. Design and analysis of a new ZOR antenna with wide half power beam width (HPBW) characteristic. Frequenz, Vol. 71, no. 1-2, pp. 41-50, Jan. 2017. DOI: 10.1515/freq-2016-0142, Published online: Oct. 13, 2016.
[28] L. Peng^*, Y. J. Qiu, X. Jiang, and C. L. Ruan. A Low-pass Filter with Sharp transition and Wide Stop-band Designed based on New Metamaterial Transmission Line. Applied Computational Electromagnetics Society Journal, Vol. 31, no. 10, pp. 1250-1256, 2016.
[29] L. Peng^*, Y. J. Qiu, L. Y. Luo and X. Jiang. Bandwidth Enhanced L-Shaped Patch Antenna with Parasitic Element for 5.8-GHz Wireless Local Area Network Applications. Wireless Personal Communications, Vol. 91, no. 3, pp. 1163-1170, 2016
[30] L. Peng^*, K. Sun, J. Y. Xie, Y. J. Qiu and X. Jiang. UWB Bi-directional Bow-tie Antenna Loaded by Rings. Journal of the Korean Physical Society, vol. 69, no. 1, pp. 22-30, 2016.
[31] L. Peng^*, J. Y. Xie, X. Jiang and S. M. Li. Investigation on Ring/Split-Ring Loaded Bow-Tie Antenna for Compactness and Notched-Band. Frequenz, 70(3-4): 89-99, 2016.
[32] L. Peng^*, J. Y. Xie, X. Jiang and S. M. Li. Wideband microstrip antenna loaded by elliptical rings. Journal of Electromagnetic Waves and Applications, Vol. 30, no. 2, pp. 154-166, 2016.
[33] L. Peng^*, J. Y. Xie, S. M. Li, and X. Jiang. Compact Bandpass Filter Serves Dual-band Needs. Microwaves & RF, September 2015, 58-60.
[34] L. Peng^*, X. Jiang. Ultra-compact UHF Band-pass Filter Designed by Archimedes Spiral Capacitor and Shorted-loaded Stubs. Frequenz, 69(1-2): 71-73, 2015.
[35] L. Peng^* and C. L. Ruan. UWB band-notched monopole antenna design using electromagnetic bandgap structures. IEEE Transactions on Microwave Theory and Techniques, vol. 59, no. 4, pp. 1074-1081, 2011.
[36] L. Peng^*, C. L. Ruan, and J. Xiong. Compact EBG for multi-band applications. IEEE Transactions on Antennas and Propagation, vol. 60, no. 9, pp. 4440-4444, 2012.
[37] L. Peng^*, C. L. Ruan, and Z. Q. Li. A novel compact and polarization-dependent mushroom-type EBG using CSRR for dual/triple-band applications. IEEE Microwave and wireless components letters, vol. 20, no. 9, pp. 489-491, 2010.
[38] L. Peng^*, C. L. Ruan, and X. H. Wu. Design and operation of dual/triple-band asymmetric M-shaped microstrip patch antennas. IEEE Antennas and Wireless Propagation Letters, vol. 9, pp. 1069-1072, 2010.
[39] L. Peng^* and C. L. Ruan. Design, analysis and implementation of novel metamaterial transmission line with dual composite right/left-handed and conventional composite right/left-handed properties. IET Microwaves, Antennas & Propag., vol. 6, no. 15, pp. 1687-1695, 2012.
[40] L. Peng^* and C. L. Ruan. A microstrip fed patch antenna with two parasitic invert L stubs for dual-band WLAN applications. Wireless Personal Communications, vol. 57, no. 4, pp. 727-734, 2011.
[41] L. Peng^*, C. L. Ruan, C. Y. Ding, and M. H. Yang. Design of a compact, wide stopband microstrip band-pass filter. Microwave and Optical Technology Letters, vol. 52, no. 4, pp. 830-833, 2010.
[42] L. Peng^*, C. L. Ruan, and X. C. Yin. Analysis of the small slot-loaded elliptical patch antenna with a band-notched for UWB applications. Microwave and Optical Technology Letters, vol. 51, no. (4), pp. 973-976, 2009.
[43] L. Peng^* and C. L. Ruan. Wide-band ultralow-profile compact microstrip antenna loaded by slots. Journal of Electromagnetic Waves and Applications, vol. 22, no. 8, pp. 1099-1105, 2008.
[44] L. Peng^*, C. L. Ruan, Y. L. Chen, G. M. Zhang. A novel band-notched elliptical ring monopole antenna with a coplanar parasitic elliptical patch for UWB applications. Journal of Electromagnetic Waves and Applications, vol. 22, no. 4, pp. 517-528, 2008.
[45] L. Peng^* and C. L. Ruan. Design and Time-Domain Analysis of Compact Multi-Band-Notched UWB Antennas with EBG Structures. Progress In Electromagnetics Research B, vol. 47, pp. 339-357, 2013.
[46] L. Peng^* and C. L. Ruan. A microstrip fed monopole patch antenna with three stubs for dual-band WLAN applications. Journal of Electromagnetic Waves and Applications, vol. 21, no. 15, pp. 2359-2369, 2007.

一作/通信作者论文（会议）
[47] Zhi-peng Li, Jing Ma, Bin Shi and L.Peng*, Ultra-Wideband and High Gain Fabry-Perot Cavity Antenna Using Frequency Selective Surface and Parasitic Patch. The 12th International Symposium on Antennas, Propagation and EM Theory (ISAPE2018). December 3-6 2018, Hangzhou, china.
[48] X. Liu, L.Peng*, X. Jiang and S. Li, "Broadband Ultra-Thin Terahertz Absorber with Graphene-Based Metamaterial Films," 2018 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Chengdu, China, 2018, pp. 1-3.doi: 10.1109/ICMMT.2018.**
[49] F. Yang, L.Peng*, X. Jiang and S. Li, "A Novel Single-Negative Metamaterial Isolator For Compact Wideband Circular Polarization Antenna Array," 2018 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Chengdu, China, 2018, pp. 1-3.doi: 10.1109/ICMMT.2018.**
[50] K Sun(学生), L. Peng^*, and X. Jiang, Design of a Circularly Polarized Omni-directional ZOR Antenna for 5G Millimeter Wave. 2017 Sixth Asia-Pacific Conference on Antennas and Propagation (APCAP). IEEE, 2017: 1-3., Xi'an, china, October 2017.
[51] 温保健(学生)，彭麟^*，谢继杨，姜兴。基于双环型谐振式反射器的宽带定向天线设计与仿真，2017全国微波毫米波会议，pp. 249-252, 2017.
[52] L. Peng^*, K. Sun, J. Y. Xie, Y. J. Qiu, and X. Jiang. Coupling Reduction of Closely Packed Antennas by String EBG Structure. 2016 the 11th International Symposium on Antennas, Propagation and EM Theory (ISAPE), pp. 716-719, Oct. 2016, Guilin.
[53] L. Peng^*, J. Y. Xie, X. Jiang, S. M. Li. A Microstrip Line Based Approach for the Evaluation of EBG Frequency Band by Its CRLH/ZOR Characteristics. Proceedings of 2015 IEEE International Conference on Communication Problem-Solving (ICCP), pp. 193-196, Oct. 2015.
[54] 彭麟^*，仇玉杰，谢继杨，姜兴。宽频单负材料隔离板抑制阵列天线间互耦研究，2015全国微波毫米波会议，pp. 401-404, 2015
[55] 彭麟^*，仇玉杰，姜兴，等。单周期EBG结构在Ka频段阵列天线中降耦合效应的研究，2014年全国军事微波技术学术会议, Vol. 30, pp. 294-297, 2014
[56] L. Peng^*, D. R. Jackson^*. Circular-polarized Compact Low-profile Omni-directional antenna. 2013 IEEE International Symposium on Antennas and Propagation and USNC-URSI National Radio Science Meeting, Lake Buena Vista, Florida, USA, pp. 1472-1473, 2013.
[57] L. Peng^*, C. L. Ruan, and C. Y. Ding. A Novel Periodic Defected Ground Structure for Microstrip Line with Improved Performances. The Third IEEE International Symposium on microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, Beijing China, pp. 896-899, October 2009.
[58] L. Peng^*, C. L. Ruan, and C. Y. Ding. Miniature filters based on metamaterials with transmission zeros and wide upper-stopband performance. The Third IEEE International Symposium on microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, Beijing China, pp. 900-903, October 2009.
[59] L. Peng^*, C. L. Ruan, and Y. Zhang. A Novel Compact Broadband Microstrip Antenna. Asia-Pacific Microwave Conference APMC 2007, pp. 1-4, Dec. 2007.


部分共同作者论文（期刊）
[60] Y. F. Cheng, X. Ding, L. Peng, J. Feng, C. Liao. Design and Analysis of a Wideband Low-Scattering Endfire Antenna Using a Moth Tail-Inspired Metamaterial Absorber and a Surface Waveguide. IEEE Transactions on Antennas and Propagation, vol. 68, no. 3, pp. 1411-1418, 2020.
[61] Wei J, Jiang X, Peng L. Ultrawideband and High-Gain Circularly Polarized Antenna With Double-Y-Shape Slot[J]. IEEE Antennas and Wireless Propagation Letters, 2017, 16: 1508-1511.
[62] Jiang X, Wei J, Peng L, et al. Seven-Port Unequal Power Divider with Broadband and Large Division Ratio Characteristics Based on T-shape Stub[J]. Frequenz.
[63] Qiu Y, Peng L, Jiang X, et al. Ultra-Small Single-Negative Metamaterial Insulator for Mutual Coupling Reduction of High-Profile Monopole Antenna Array[J]. Progress In Electromagnetics Research C, 2017, 72: 197-205.
[64] 姜祥奔; 姜兴; 彭麟; 李小明, 微波用于大脑神经活动检测的新技术, 桂林电子科技大学学报, 05期, pp 360-363, 2016/10.
[65] 姜兴^*，张凯，彭麟. 一种新型大功分比的T型微带不等功分器. 微波学报，2015，31(1): 74-77.
[66] Yang, M., Xu, J., Zhao, Q., Peng, L., & Li, G. (2010). Compact, broad-stopband lowpass filters using sirs-loaded circular hairpin resonators. Progress In Electromagnetics Research,102, 95-106.
[67] Z. Q. Li^*, C. L. Ruan, and L. Peng. Design and analysis of planar antenna with dual WLAN band-notched for integrated bluetooth and UWB applications. Journal of Electromagnetic Waves and Applications, vol. 24, no. 13, 1817-1828, 2010.
[68] Z. Q. Li^*, C. L. Ruan, and L. Peng, and X. H. Wu. Design of a simple multi-band antenna with a parasitic c-shaped strip. Journal of Electromagnetic Waves and Applications, vol. 24, no. 14, pp. 1921-1929, 2010.
[69] X. H. Wu^*, C. L. Ruan, and L. Peng. A Wideband Elliptical Bowtie Impulse Antenna. Progress In Electromagnetics Research Letters, vol. 15, pp. 37-43, 2010.
[70] Y. L. Chen^*, C. L. Ruan, and L. Peng. A Novel Ultra-wideband Bow-tie Slot Antenna in Wireless Communication Systems. Progress In Electromagnetics Research Letters, vol. 1, pp. 101-108, 2008.
[71] Q. Liu^*, C. L. Ruan, L. Peng, and W. X. Wu. A Novel Compact Archimedean Spiral Antenna with Gap-loading. Progress In Electromagnetics Research Letters, vol. 3, pp. 169-177, 2008.
[72] G. M. Zhang^*, J. S. Hong, B. Z. Wang, Q. Y. Qin, L. Peng, and D. M. Wan. Novel dual-band and broad-band designs of circle slot antenna with a cross-shaped stub. Journal of Electromagnetic Waves and Applications, vol. 21, no. 14, pp. 2169-2179, 2007.


部分共同作者论文（会议）
[73] 姜兴^*，闫晋宏，彭麟. Design of a broadband circularly polarized microstrip antenna. The 3rd Advanced Electromagnetic Symposium, 2014.12.7, pp.118-120.
[74] 姜兴^*，黄英超，彭麟. A Radome Used for Circular Polarized Antenna Array. The 3rd Advanced Electromagnetic Symposium, 2014.12.7, pp. 131-133.
[75] 姜兴^*，张凯，黄英超，彭麟，一种任意功分比的微带T型不等功分器，2014年全国军事微波技术学术会议, Vol. 30, pp. 102-105, 2014
[76] X. Jiang^*，Y. J. Qiu，L. Peng，Novel Metamaterial Insulator For Compact Array Isolation[C]//Signal Processing, Communications and Computing (ICSPCC), 2014 IEEE International Conference on. IEEE, 2014: 649-652
[77] C. Y. Ding^*, C. L. Ruan, L. Peng, and J. H. Chu. A back-to-back planar folded dipole on EBG substrate. The Third IEEE International Symposium on microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, Beijing China, pp. 573-576, October 2009.
[78] C. Y. Ding^*, C. L. Ruan, L. Peng, and X. C. Yin, Wideband planar open-sleeve dipole on magnetic dielectric material based EBG substrate. The Third IEEE International Symposium on microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, Beijing China, pp. 577-579, October 2009.
[79] C. Y. Ding^*, C. L. Ruan, L. Peng, J. H. Chu, A novel archimedean spiral antenna with uniplanar EBG substrate. 8th IEEE International Symposium on. Antennas, Propagation and EM Theory, ISAPE 2008, 2008: 313-315.
[80] 张云^*、阮成礼、彭麟。宽带小型微带天线研究综述。2007年全国微波毫米波会议论文集, 第二部分, pp. 361-364, 2007.

学术著作

科研项目

2017.01-2020.12，主持在研国家自然科学基金地区基金项目，“基于谐振效应的超宽带同相反射器及宽频小型低剖面定向天线研究”，**，43万。

2018.09-2020.04，主持在研横向课题（航天某所），“基于复合左右手传输线的XXX技术”

2017.01-2018.12，参与(已结题)横向课题（K军工厂），“XXX链路技术”

2019.01-2020.12，参与在研横向课题（K军工厂），“XXX微波技术”

2017.12-2019.04，参与在研横向课题（D公司），“XXX车载XXX天线”

2019.01-2020.12，参与在研横向课题（D公司），“XXX模拟技术”

2015.01-2017.12，主持(已结题)国家自然科学基金青年基金项目，“基于新型零阶谐振器的低剖面全向圆极化天线及其宽频研究”，**，30万。

2015.09-2018.08，主持(已结题)广西自然科学基金青年基金项目，“基于物联网及5G通信技术的新一代无线终端毫米波低剖面全向圆极化天线研究”，2015GXNSFBA139244，5万。

2009.06-2013.06，主持(已结题)中央高校基本科研业务费（电子科技大学）项目“小型、宽带EBG与左手材料的关系及其在天线上的应用研究”。

2013.07-2015.12，参与(已结题)国防预研项目“XX阵列天线技术”研究。

2005.01-2009.12, 参与(已结题)国防探索项目：高效传播瞬态XXXX技术。

读博期间参与(已结题)XXX天线阵及波束扫描技术横向项目，参与天线设计研究。

读博期间参与(已结题)XXX脉冲雷达横向项目，负责天线系统部分设计。

读硕期间参与(已结题)XXX毫米波引信横向项目，负责天线系统部分设计。


专利及知识产权

已授权：

彭麟、谢继杨、孙凯、姜兴、仇玉杰，基于谐振式反射器的宽带定向天线，中国，发明专利，专利号：ZL 0.6，申请日：2016-01-21，授权公告日：2018-01-09

姜兴，唐绍宇，彭麟，仇玉杰，李晓峰，廖欣，韦佳，孙竹竹，王永琦，宽带高增益圆极化天线，中国，发明专利，专利号：ZL 8.0，申请日期：2015-08-20，授权公告日：2018-08-10

姜兴、彭麟、李思敏、徐俊珺、黄英超、张凯、李晓峰、廖欣、唐绍宇、仇玉杰，一种XXX阵方法，中国，国防专利，申请号/专利号：ZL XXXX，申请日：2015-08-03，授权公告日：2017-11-10

姜兴、彭麟、闫晋宏、李晓峰、廖欣、仇玉杰、李小明、孙竹竹，双XXX阵列天线，中国， 国防专利，申请号：ZL XXXX，申请日：2015-08-03，授权公告日：2017-11-10

阮成礼、彭麟、张连红、吴晓华、历志强、单坤，一种XXX辐射天线，中国，发明专利，专利号：ZL XXXX，申请日：2011-1-25，授权日：2014-8-27

阮成礼、彭麟，张连红、吴晓华、单坤、历志强，一种XXX实时延时器，中国，发明专利，专利号：ZL XXXX，申请日：2011-1-28，授权日：2014-8-27

联系信息

联系邮箱：penglin@guet.edu.cn