一作/通信作者论文(期刊)
[1]
Yan-fang Liu(学生), Lin Peng*, and Wei Shao. An Efficient Knowledge-Based Artificial Neural
Network for the Design of Circularly Polarized 3D-Printed Lens Antenna. IEEE
Transactions on Antennas and Propagation, DOI (identifier)
10.1109/TAP.2022.3140313, accepted, 2022.
[2]
Yan-fang Liu(学生), Lin Peng*, Chen Wang, Xue-mei Zheng, Qian-kun Xu, Hao-kai Jia,
Cheng-li Ruan and Si-min Li. Multi-objects Design of A 3D-Printed
All-Dielectric Lens Antenna by An Automatic Synthesis Algorithm. IEEE Antennas
and Wireless Propagation Letters, Accepted, 2022
[3]
Wei-sheng Yu(学生), Lin Peng*, Yan-fang Liu, Qi-xiang Zhao, Xing Jiang, and Si-min
Li. An Ultra-wideband and High Aperture Efficiency All-Dielectric Lens Antenna. IEEE
Antennas and Wireless Propagation Letters, vol. 20, no. 12, pp.
2442-2446, 2021.
[4]
Yan-ru Hua(学生), Lin Peng*, Tian-cheng Zheng, Zhi-hua Zhao, Bo Wang, Xing
Jiang, and Si-min Li. An S-band Fabry-Perot Cavity Antenna with Wide 1-dB Gain
Bandwidth. IEEE Antennas and Wireless Propagation Letters, vol. 20, no. 6,
pp. 963-967, 2021.
[5]
Xiao Liu(学生), Lin Peng*, Yan-fang Liu, Wei-sheng Yu, Qi-xiang Zhao, Xing
Jiang, Si-min Li, and Cheng-li Ruan. Ultrabroadband All-Dielectric
Transmitarray Designing Based on Genetic Algorithm Optimization and 3-D Print
Technology. IEEE Transactions on Antennas and Propagation, vol.
69, no. 4, pp. 2003-2012, 2021.
[6] 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. IEEE/OSA Journal of Lightwave Technology, vol. 36, no. 19, pp.
4250-4258, Oct. 2018
[7]
X. Liu(学生), L. Peng*, J. Ma, B. Shi, X. Jiang,
and S. M. Li. Quasi-Two-Dimensional 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 a
Single-negative structure. IEEE Antennas and Wireless Propagation Letters, vol. 18, no. 5, pp. 991-995, 2019.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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, 4600615-1-15, 2017.
[14] 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
[15] 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.
[16]
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. IET Microwaves, Antennas & Propagation,
vol. 14, no. 15, pp. 1952-1959, 2020
[17]
Yan-fang Liu(学生), Lin Peng*, Bo Wang, Wei-sheng Yu, Tian-cheng Zheng and Xing
Jiang. A low-F/D wideband transmitarray antenna. Progress In
Electromagnetics Research letters, vol. 98, pp. 95-103, 2021.
[18]
张中南;喻伟晟;吴晓华;彭麟*。 基于遗传算法的宽带高增益全介质透镜天线优化设计。电波科学学报,2022(已接收)
[19] 彭麟、赵智华、廖欣*、郑天成、姜兴。毫米波宽带高增益介质超透镜天线设计。电讯技术,vol. 62, no. 4, 2022, 已接受
[20] Lin Peng*, Bing-Zhong Wang, Bo Wang, Xing Jiang, Si-min Li, and
Cheng-li Ruan. Bandwidth enhancement of the omni-directional and
circularly-polarized EZR-MZR antenna. International Journal of RF and
Microwave Computer-Aided Engineering, vol. 31,
no. 8, pp. e22731, 2021
[21]
赵智华(学生)、彭麟*、郑天成、化艳茹、廖欣、姜兴。E波段宽带高增益透射阵天线设计。微波学报,vol. 37, no. 4, pp. 34-38,2021年8月
[22] Lin Peng*, Bing-Zhong Wang, Xing Jiang, Si-min Li, and Cheng-li
Ruan. Polarization and bandwidth improvements of a zeroth-order resonators
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.
[23]
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.
[24]
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.
[25]
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.
[26]
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.
[27] 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, 2019, 1(4): 1452-1459.
[28]
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
[29]
Y. W. Deng(学生), L. Peng*, X. Liao, X. Jiang. An Ultra-Broadband Terahertz
Absorber Based on Coplanar Graphene and Gold Hybridized Metasurface. Plasmonics , vol. 14, no. 5,
pp. 1057-1061, 2019
[30]
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
[31]
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.
[32]
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。
[33]
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.
[34] 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.
[35]
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.
[36] 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.
[37] L. Peng*, J. Y. 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.
[38] 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
[39] 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, 2016.
[40] 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.
[41] 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.
[42] 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.
[43] 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.
[44] 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.
[45] 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.
[46] L. Peng*, J. Y. Xie, S. M. Li, and X. Jiang. Compact Bandpass
Filter Serves Dual-band Needs. Microwaves & RF, September 2015,
58-60.
[47] 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.
[48] 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.
[49] 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.
[50] 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.
[51] 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.
[52] 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.
[53] 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.
[54] 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.
[55] 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)
[56]
Jing Ma, Shi-Li Tan, Si-Yuan Ni, Chen Wang, Kai Sun, Yong-Yuan Luo, Lin
Peng, "Cross-Polarization suppression by Comb-Shaped slots in Microstrip
Patch," 2021 International Conference on Microwave and Millimeter Wave
Technology (ICMMT), Nanjing, China, 2021.
[57]
Chen Wang, Weisheng Yu, Yanfang Liu, Lin Peng, " A 3D printed all
dielectric Fresnel zone plate lens with high gain characteristic at the
X-band," 2021 International Conference on Microwave and Millimeter Wave
Technology (ICMMT), Nanjing, China, 2021.
[58]
赵智华,彭麟*,刘骁,郑天成,姜兴. 基于各向异性材料结构的高增益天线,2019年全国天线年会,pp.700-703, 2019
[59]
Yan-ru Hua, Zhi-peng Li, Yong-yuan Luo, Lin Peng*, Xing Jiang, and Si-min Li, "Design of a Polarization-Reconfigurable and Frequency-Tunable Active Metasurface," 2020 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Shanghai, China, 2020.
[61]
T. C. Zheng(学生), L. Peng*, Xiao Liu, Jing Ma, Bin Shi, Zh. H. Zhao. Design of
Dynamically Tunable Broadband Polarization Converter in Terahertz Frequency
Based on Graphene Strips. 2019 International
Conference on Microwave and Millimeter Wave Technology (ICMMT), Guangzhou, 2019
[62]
J. Y. Chu(学生), L. Peng*, J. Ma, B, Shi, Y. R. Hua, Z. P. Li, X. Jiang, and S.
M. Li. "Design of High-Gain Cavity-Backed Planar Spiral Antenna Based on
Arc-Shaped Metasurface," 2019 International Conference on Microwave and
Millimeter Wave Technology (ICMMT), Guangzhou, 2019
[63]
彭麟、杨福满、姜兴、沈湘、谢明聪。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全国天线年会(特邀报告),2019年7月于昆明
[64]
Zhi-peng Li(学生), 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.,2018: 1-3.
[65]
X. Liu(学生), 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,
May 7-9, 2018, pp. 1-3.
[66]
F. M. Yang(学生), 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, May 7-9, 2018
[67]
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 16-19, 2017.
[68]
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.
[69] 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. 18-21, 2016, Guilin.
[70] 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.
[71] 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
[73] 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.
[74] 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.
[75] 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.
[76] 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.
共同作者论文(期刊)
[77] Y. F. Cheng, C. Liao, G. F. Gao, L. Peng, X. Ding.
Performance Enhancement of A Planar Slot Phased Array by Using Dual-Mode SIW
Cavity and Coding Metasurface. IEEE Transactions on Antennas and
Propagation, Accepted, 2021.
[78] 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.
[79] 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.
[80] 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.
[81] 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.
[82] 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, 乐动网页版学报, 05期, pp 360-363, 2016/10.
[83] 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.
[84] 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.
[85] 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.
[86] 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.
[87] 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.
[88] 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.
[89] 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.
[90] 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.
共同作者论文(会议)
[91] 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.
[92] 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.
[94] 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
[95] 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.
[96]
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.
[97]
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.
[98] 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.