西安电子科技大学电子工程学院导师教师师资介绍简介-刘能武

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基本信息

刘能武副教授
博士生导师和硕士生导师
IEEE Member
专业/学科：电磁场与微波技术　
工作单位：电子工程学院天线与微波技术重点实验室

联系方式
通信地址：西安电子科技大学377邮箱
电子邮箱1：nwliu@xidian.edu.cn
电子邮箱2：nengwuliu@126.com
办公电话：
办公地点：科技楼1020

个人简介
学习经历
2015-2017 澳门大学科技学院博士
2012-2015 西安电子科技大学电子工程学院硕士
2008-2012 西安电子科技大学电子工程学院本科
工作经历
2018年1月至今，西安电子科技大学副教授/硕士生导师
2019年至今，西安电子科技大学副教授/博士生导师
研究背景：
博士生导师为澳门大学祝雷教授（电磁计算、滤波器及天线等领域专家，IEEE Fellow）、蔡伟华副教授。在攻读博士学位期间（2015.01-2017.09）提出了一种基于单腔多辐射模理论的频带展宽新技术和新方法。围绕上述研究课题，目前以第一作者发表了多篇 IEEE TAP、IEEE AWPL等。目前为止，以第一作者或共同作者在IEEE TAP、IEEE ACCESS、IEEE AWPL、IET AP等国际期刊和会议上发表学术论文40余篇。目前主要从事单腔多模天线、宽带天线、低剖面天线、新型天线、5G天线等方面的理论分析与研究。
职务与荣誉：
1）陕西省人才计划入选者
2）“华山****”学术型菁英人才计划
3）多个IEEE和IET 国际期刊的副主编 (中科院二区 / 四区)
4） IEEE TAP、AWPL等国际期刊审稿人

主要研究方向
1．单腔多模天线技术研究
2．微带天线、介质天线、缝隙天线技术研究
3．5G天线研究
4．新型天线设计与研究

最新动态
1.恭喜正式第一届学生孙美娇荣获研究生社会奖学金（小米）！
2.恭喜正式第一届两位学生孙美娇、郜森荣获国家奖学金！
3. 目前在西电广州研究院有两名工程硕士研究生的优研名额，欢迎报考！
4.一种低剖面介质谐振天线及无线通信系统，刘能武等，已授权，2020.07
5. 2020.04：学术论文, “Design Approach of a Single Circularly Polarized Patch Antenna with Enhanced AR-Bandwidth under Triple-Mode Resonance,” 被IEEE Trans. Antennas Propag (中科院二区) 接收。
6. 2019.11：学术论文, “A Single-Layer Single-Fed Shorted Patch Antenna with Broadside Circular Polarization by Using Nondegenerate TM0,1/2 and TM1,1/2 Modes,” 被IEEE Antennas and WirelessPropag Letters (中科院三区) 接收。
7. 2019.09：学术论文ESI高被引：N.-W. Liu,L. Zhu, W.-W. Choi, and X. Zhang, “A low-profile aperture-coupled microstrip antenna with enhanced bandwidth under dual-resonance,”IEEE Trans. Antennas Propag., vol. 65, no. 3, pp. 1055-1062, Mar. 2017。

科学研究
主持项目：
[1]. 国家自然基金青年项目：基于单腔多辐射模综合的超低剖面贴片天线技术研究
[2]. 陕西省人才计划项目
[3]. 华山****学术型菁英人才计划项目
[4]. 陕西省留学回国人员科技活动择优资助项目
[5]. 陕西省自然基金面上项目
[6]. 国家重点实验开放项目

参与项目：
[1]. 国家自然基金面上项目：单腔多辐射模宽带天线理论与方法的研究(**)
[2]. 澳门大学科研基金Studies on Compact Wideband Antennas Based on Multiple Mode Resonator
[3]. 澳门大学科研基金 Study of RF/MW Tunable Components for Cognitive Radio System
专利：
1.一种低剖面介质谐振天线及无线通信系统，刘能武等，已授权
2. 一种超薄半壁短路圆极化顶端辐射天线，刘能武等，已授权
3. 一种低剖面多模混合介质谐振天线、无线通信系统，刘能武等，已授权
4.一种基于多模融合的超低剖面双频宽波束微带天线，刘能武等，已授权
5.基于双模融合的带宽增强紧凑型微带天线、无线通信系统，刘能武等，已授权
6. 一种宽带低剖面介质谐振天线、无线通信系统，刘能武等，已授权

新增栏目1
2020年
[1].N.-W. Liu, L. Zhu, Z.-X. Liu, G. Fu, and Y. Liu, “Design approach of a single circularly polarized patch antenna with enhanced AR-bandwidth under triple-mode resonance,” IEEE Transactions on Antennas and Propagation. 2020
[2]. N.-W. Liu, L. Zhu, Z.-X. Liu, Z.-Y. Zhang, and G. Fu, “Frequency-ratio reduction of alow-profile dual-band dual-circularly polarized patch antenna under triple-resonance,”IEEE Antennas and Wireless Propagation Letters. 2020
[3].N.-W. Liu, S. Gao, L. Zhu,L.-Y. Ji, L. Yang, and H.-L. Zheng, “Low-Profile Microstrip Patch Antenna with Simultaneous Enhanced Bandwidth, Beamwidth, and Cross-Polarization under Dual-Resonance,” IET Microwaves, Antennas & Propagation, 2020.
[4]N.-W. Liu, M. -J.Sun,L. Zhu,Z. -H.Jia,L.-Y. Ji,G. Fu,H.-L.Zheng, “Acompactmonopolarpatchantenna withbandwidth-enhancement underdual-moderesonance,”International Journal of RF and Microwave Computer-Aided Engineering .2020.
[5].Z.-X. Liu, L. Zhu, and N.-W. Liu, “A compact omnidirectional patch antenna with ultra-wideband harmonic suppression,” IEEE Transactions on Antennas and Propagation. 2020
[6]. Z.-X. Liu, L. Zhu, and N.-W. Liu, “Design approach for compact dual-band dual-mode patch antenna with flexible frequency ratio,”IEEE Transactions on Antennas and Propagation. 2020
2019年
[1]N.-W. Liu, L. Zhu, Z. -X. Liu, Z. -YZhang, G. Fu, and Y.Liu, “Cross-Polarization Reduction of a Shorted Patch Antenna with Broadside Radiation Using a Pair of Open-Ended Stubs,”IEEE Trans. Antennas Propag.2019. (Accepted)
[2]N.-W. Liu, L. Zhu, Z. -X. Liu, and Y.Liu, “Dual-Band Single-Layer Microstrip Patch Antenna with Enhanced Bandwidth and Beamwidth Based on Reshaped Multiresonant Modes,”IEEE Trans. Antennas Propag.2019. (Accepted)
[3].N.-W. Liu,M.-J.Sun, L. Zhu, D. P. Xie, and G. Fu, “A Low-Profile Cavity Antenna with Simultaneous Bandwidth and Radiation Pattern Improvement,” IEEE Antennas Wireless Propag. Lett., 2019. (Accepted)
[4]N.-W. Liu, M.-J.Sun, L. Zhu, Z.-X.Liu, L. Yang, and L.-Y.Ji, “A Single-Layer Single-Fed Shorted Patch Antenna with Broadside Circular Polarization by Using Nondegenerate TM0,1/2 and TM1,1/2 Modes,”IEEE Antennas Wireless Propag. Lett., 2019. (Accepted)
[5].N.-W. Liu, X. -P.Chen, L. Zhu, Z. -X. Liu, and G. Fu, “Compact dielectric resonator antenna with bandwidth enhancement via loading of shorting pins,” IET Microwaves, Antennas & Propagation, 2019. (Accepted)
[6].N.-W. Liu, X. -P.Chen, L. Zhu, X. Chen, G. Fu, and Y.Liu, “Low-profile triple-band microstrip antenna via sharing a single multi-mode patch resonator,” IET Microwaves, Antennas & Propagation, 2019. (Accepted)
[7]Z.-X.Liu, L. Zhu,N.-W. Liu, “Design Approach of Radiation Pattern Reshaping for TM12 Mode and Its Application in Bandwidth Enhancement,”IEEE Trans. Antennas Propag.2019. (Accepted)
[8]Y. H.Xu, L. Zhu,N.-W. Liu, “Differentially-Fed Wideband Filtering Slot Antenna with End-Fire Radiation under Multi-Resonant Modes,”IEEE Trans. Antennas Propag.2019. (Accepted)
[9]. L.-Y.Ji, Z.-Y. Zhang, andN.-W. Liu, “A Two-Dimensional Beam-Steering Partially Reflective Surface (PRS) Antenna Using a Reconfigurable FSS Structure,” IEEE Antennas Wireless Propag. Lett., 2019. (Accepted)
[10]. J.Shi, L. Zhu,N. -W. Liu, and W. Wu, “A Microstrip Yagi Antenna With an Enlarged Beam Tilt Angle via a Slot-Loaded Patch Reflector and Pin-Loaded Patch Directors,” IEEE Antennas Wireless Propag. Lett., 2019. (Accepted)
[11]. J.Shi, L. Zhu,N. -W. Liu, and W. Wu, “A novel microstrip Yagi antenna with an improved end‐fire radiation pattern under operation of the TM20mode,” International Journal of RF and Microwave Computer‐Aided Engineering., 2019. (Accepted)
2018 年
[1]N.-W. Liu, L. Zhu, W.-W. Choi, and G. Fu, “A Low Profile Wideband Aperture-Fed Microstrip Antenna with Improved Radiation Patterns,”IEEE Trans. Antennas Propag.2018. (Accepted)
[2]N.-W. Liu, L. Zhu, W.-W. Choi, and G. Fu, “A Low Profile Shorted-Patch Antenna with Enhanced Bandwidth and Reduced H-Plane Cross-Polarization,”IEEE Trans. Antennas Propag.2018. (Accepted)
[3]N.-W. Liu, L. Zhu, W.-W. Choi, and X. Zhang, “A Low-Profile Differential-Fed Patch Antenna with Bandwidth Enhancement and Sidelobe Reduction under Operation of TM10and TM12Modes,”IEEE Trans. Antennas Propag.2018. (Accepted)
[4].N.-W. Liu, L. Zhu, W.-W. Choi, and J. D. Zhang, “A low profile differentially-fed microstrip patch antenna with broad impedance bandwidth under triple-mode resonance,”IEEE Antennas Wireless Propag. Lett.,2018. (Accepted)
[5]. X. Zhang, L. Zhu,N.-W. Liu, and D.-P. Xie, “Pin-loaded circularly-polarized patch antenna with sharpened gain roll-off rate and widened 3-dB axial ratio beamwidth,”IET Microwaves, Antennas & Propagation, Jan. 2018. (Accepted)
[6]. D.-P. Xie, L. Zhu, X. Zhang, andN.-W. Liu, “Gain-enhanced EH1-mode microtrip leaky-wave antenna with periodical loading of shorting pins,”IET Microwaves, Antennas & Propagation,vol. 12, no. 2, pp. 230-236, Feb. 2018.
2017 年
[1].N.-W. Liu,L. Zhu, W.-W. Choi, and X. Zhang, “A low-profile aperture-coupled microstrip antenna with enhanced bandwidth under dual-resonance,”IEEE Trans. Antennas Propag., vol. 65, no. 3, pp. 1055-1062, Mar. 2017.(ESI 高被引论文)
[2].N.-W. Liu, L. Zhu, and W.-W. Choi, “A differential-fed microstrip patch antenna with bandwidth enhancement under operation of TM10 and TM30 modes,” IEEE Trans. Antennas Propag., vol. 65, no. 4, pp. 1607-1614, Apr. 2017.
[3].N.-W. Liu, L. Zhu, W.-W. Choi, and X. Zhang, “Wideband shorted patch antenna under radiation of dual resonant modes,” IEEE Trans. Antennas Propag., vol. 65, no. 6, pp. 2789-2796, Jun. 2017.
[4].N.-W. Liu, L. Zhu, and W.-W. Choi, “A low-profile wide-bandwidth planar inverted-F antenna under dual resonances: principle and design approach,” IEEE Trans. Antennas Propag. ., vol. 65, no. 10, pp. 5019-5025, Oct. 2017.
[5].N.-W. Liu,L. Zhu, X. Zhang, and W.-W. Choi, “A Wideband Differential-Fed Dual-Polarized Microstrip Antenna under Dual Improved Odd-Order Modes Operation,” IEEE Access., vol. 5, pp. 23672-23680, Sep. 2017.
[6].X. Zhang, L. Zhu, andN.-W. Liu, “Pin-loaded circularly-polarized patch antennas with wide 3-dB axial ratio beamwidth,” IEEE Transactions on Antennas and Propagation, vol. 65, no. 2, pp. 521-528, Feb. 2017.
[7].J.-D. Zhang, L. Zhu,N.-W. Liu, and W. Wu, “Dual-band and dual-circularly-polarized single-layer microstrip array based on multi-resonant modes,” IEEE Transactions on Antennas and Propagation, vol. 65, no. 3, pp. 1428-1433, Mar. 2017.
[8].J.-D. Zhang, L. Zhu,N.-W. Liu, and W. Wu, “CP patch antenna with controllable polarisation over dual-frequency bands,”IET Microwaves, Antennas & Propagation, vol. 11, no. 2, pp. 224-231, Feb. 2017.
2016 年
[1].N.-W. Liu, L. Zhu, W.-W. Choi, and J.-D. Zhang, “A novel differential-fed patch antenna on stepped-impedance resonator with enhanced bandwidth under dual-resonance,” IEEE Trans. Antennas Propag., vol. 64, no. 11, pp. 4618-4625, Nov. 2016.
[2].N.-W. Liu, L. Zhu and W.-W. Choi, “Low-profile wide-beamwidth circularly-polarized patch antenna on a suspended substrate,” IET Microwaves, Antennas & Propagation, vol. 10, no. 8, pp. 885-890, Mar. 2016.
[3].N.-W. Liu,L. Zhu and W.-W. Choi, “A printed wide-beamwidth CP antenna via two pairs of radiating slots placed in a square contour,”International Journal of Microwave and Wireless Technologies, vol. 9, no. 3, Apr, pp. 649-656, Aug. 2016.
[4].J.-D. Zhang, L. Zhu, Q.-S. Wu,N.-W. Liu, and W. Wu, “A compact microstrip-fed patch antenna with enhanced bandwidth and harmonic suppression,” IEEE Transactions on Antennas and Propagation, vol. 64, no. 12, pp. 5030-5037, Dec. 2016.
2015 年
[1].Z.-Y. Zhang,N.-W. Liu, Y. Li and G. Fu, “A wideband circularly polarized array antenna with flat-top beam pattern,” IET Microwaves, Antennas & Propagation, vol. 9, no. 8, pp. 755-761, Jan. 2015.
2014 年
[1].N.–W. Liu,Z.-Y. Zhang, J.-Y. Zhao, G. Fu, and Y.-L. Yao, “A design of wideband circularly polarized antenna with high gain,” Microw. Opt. Technol. Lett., vol. 56, no. 6, pp. 1274–1277, Jun. 2014.
2013 年
[1].Z.-Y. Zhang,N.-W. Liu, J.-Y. Zhao, and G. Fu , “Wideband circularly polarized antenna with gain improvement,” IEEE Antennas Wireless Propag. Lett., vol. 12, pp. 456–459, 2013.

荣誉获奖
[1]. 西安电子科技大学：“华山****”学术型菁英人才计划，2017
[2].Best Student Paper Award in National Conference on Antennas, 2017 (全国天线年会优秀论文奖)，并荣登澳门特别行政区日报和澳门大学新闻网
[3].Best Student Paper Award in Cross-Strait Quad-Regional Radio Wireless Conference, 2017，并荣登澳门大学新闻网
[4].Best Student Paper Award in IEEE 17th Macau/HK AP/MTT Postgraduate Conference, 2016

科研团队
团队教师
属于天线与微波技术国家重点实验室傅光教授课题组
学生成果：
1. 2017级：陈鑫鹏（两篇SCI、两个专利授权、会议若干、两次一等奖学金）
2. 2019级：孙美娇（国家奖学金获得者、研究生社会奖学金、三篇SCI、一个专利申请、会议若干) 、郜森（国家奖学金获得者、一篇SCI、一个专利授权、会议若干）
3. 2020级：梁宇栋、孙天坤

课程教学
目前本人承担的教学任务：

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招生要求
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关于研究生招生的信息：
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注重天线的原理性分析与研究。
要求学生刻苦耐劳、积极向上、学习态度认真。
要求学生具有良好的英语写作能力。
希望学生积极探索新天线、新性能。
为学生提供良好的实验条件、学术交流氛围、参与国内国际会议机会，表现优秀者可推荐至海外攻读博士学位。
给与大家充分的学术指导！提升大家的学术能力！协助申请更好的学校！大家共同努力！共同进步！
亲手指导！微信正常时间随时可以联系交流！
欢迎保研、优研、考研生报考！

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