赵钢 副教授 硕士生导师
博士学科:电磁场与微波技术
硕士学科:电磁场与微波技术
工作单位:电子工程学院
天线与微波技术国家重点实验室
学科专业
1. 电磁场与微波技术
2. 电子与通信工程
通信地址:西安市雁塔区太白南路2号
电子邮箱:gangzhao@mail.xidian.edu.cn
办公电话:029-88201266
办公地点:科技楼A1112
赵钢,博士,西安电子科技大学副教授,天线与微波技术国家重点实验室骨干成员,“信息感知协同创新中心”(2011计划)成员,陕西省“天线与微波技术创新团队”成员,中国电子学会高级会员。2005年7月获得西安电子科技大学电子信息工程学士学位,2011年3月获得西安电子科技大学电磁场与微波技术博士学位并留校任教。主要从事天线理论与优化设计、微波毫米波传输与辐射、电磁计算与电磁测量等方面的基础研究及工程应用。主持预研基金、重点实验室基金等国家级和省部级各类纵向项目十余项,主持产学研等各类横向项目数十项。在IEEE TAP、IEEE AWPL、IEEE TGRS等国际期刊发表SCI检索论文40余篇,并多次受邀在国内外知名学术会议做报告。获得多项授权发明专利。长期担任IEEE等多个国际期刊审稿人。
天线理论与优化设计方法
电磁超材料及其应用
电磁测量理论与技术
电磁计算方法
1. 星载超大规模赋形波束反射阵天线
该成果针对大口径反射阵天线工作带宽严重受限的问题,首次提出大规模反射阵列赋形波束快速综合以及宽带优化设计新方法,结合二维周期谱域矩量法对超大规模反射阵进行高效快速精确计算和优化设计,技术水平属国内领先。所设计的赋形波束反射阵天线阵列单元数2.5万个,口径尺寸大于2m*2m,是目前国际上阵列规模最大、赋形波束形状最复杂的反射阵天线。经实验验证,该天线在Ku频段工作带宽内波束形状覆盖中国国土区域,完全满足地球同步轨道星载通信天线的技术指标要求,填补了国内空白。以此为基础,为我国下一代深空探测成功研制立方星高增益可展开反射阵天线,经地面验证后已交付并开展星上在轨实验。
2. 材料电磁参数高精度测试系统
该成果在国家科技进步三等奖、航天部科技进步一等奖的基础上,在国内外首次提出校准矢量网络分析仪的新方法,并开发出相应测试系统,经大量用户证实,测试精度居国内领先水平。作为起草单位之一起草的相关标准于2017年9月通过军委装备发展部审定,正式列入中国国家军用标准。该成果具有完全自主知识产权,已申请发明专利一项、已授权实用新型专利一项,并为国内外多家单位开发相应测试系统,受到用户的一致好评。为航天器升空及返回、隐身飞行器设计及鉴定、高性能吸波材料制备、定向能武器应用、动/静平台雷达实用化装备、射电望远镜维护保障、新一代集成电路开发及应用等提供了强有力的技术支持。
1. S. G. Zhou, G. Zhao*, H. Xu, et al., A wideband 1-bit reconfigurable reflectarray antenna at Ku-band, IEEE Antennas and Wireless Propagation Letters, Vol. 21, pp. 566-570, 2022.
2. C. Tian, G. Zhao*, R. N. Du et al., A high efficiency transmitarray using two-layer elements etched on compound substrate, IEEE Access, Vol. 10, pp. 40073-40078, 2022.
3. C. Tian, Y. Q. Lu, G. Zhao*, et al., Double-layer tansmitarray antenna using specially designed substrate, IEEE Antennas and Wireless Propagation Letters, Vol. 21, pp. 441-445, 2022.
4. H. Xu, G. Zhao*, C. Tian, et al., A dual-band dual-polarization Fabry–Pérot resonator antenna, Microwave and Optical Technology Letter, Vol. 64, pp. 755-761, 2021.
5. G. T. Chen, Y. C. Jiao, G. Zhao et al., Design of wideband high-efficiency circularly polarized folded reflectarray antenna, IEEE Transactions on Antennas and Propagation, Vol. 69, pp. 6988-6993, 2021.
6. C. W. Luo, G. Zhao*, Y. C. Jiao, et al., Wideband 1bit reconfigurable transmitarray antenna based on polarization rotation element, IEEE Antennas and Wireless Propagation Letters, Vol. 20, pp. 798-802, 2021.
7. G. T. Chen, Y. C. Jiao, G. Zhao, A wideband transmitarray antenna based on the substrate integrated waveguide polarization twister, International journal of RF and microwave computed-aided engineering, Vol. 31, e22555, 2021.
8. G. Zhao, Y. C. Jiao, G. T. Chen, Optimal design of a large dual-polarization microstrip reflectarray with China-coverage patterns for satellite communications, Frontiers of Information Technology & Electronic Engineering, Vol. 21, pp. 159-173, 2020.
9. Z. Xu, J. Ding, G. Chen, G Zhao et al., An approach to high frame rate radar imaging through electronically displace-phase –center antenna, IEEE Transactions on Geoscience and Remote Sensing, Vol. 58, pp. 5602-5611, 2020.
10. C. W. Luo, Y. C. Jiao, G. Zhao* et al., Novel low-profile dual-band and dual-polarization Fabray-Perot resonator antenna, International journal of RF and microwave computed-aided engineering, Vol. 31, e22566, 2020.
11. G. T. Chen, Y. C. Jiao and G. Zhao, Novel wideband metal-only transmitarray antenna based on 1-Bit polarization rotation element, International journal of RF and microwave computed-aided engineering, Vol. 30, e22388, 2020.
12. G. T. Chen, Y. C. Jiao and G. Zhao, A reflectarray for generating wideband circularly polarized orbital angular momentum vortex wave, IEEE Antennas and Wireless Propagation Letters, Vol. 18, pp. 182-186, 2019.
13. C. Tian, Y. C. Jiao and G. Zhao, Circularly polarized transmitarray antenna using low-profile dual-linearly-polarized elements, IEEE Antennas and Wireless Propagation Letters, Vol. 16, pp. 465-468, 2017.
14. H. Zhang, Y. C. Jiao, G. Zhao et al.,, Half-mode substrate integrated waveguide-based leaky-wave antenna loaded with meandered lines, Electronics Letters, Vol.53, pp. 1172-1174, 2017.
15. C. Tian, Y. C. Jiao, G. Zhao et al., A wideband transmitarray using triple-layer elements combined with cross slots and double square rings, IEEE Antennas and Wireless Propagation Letters, Vol.16, pp. 1561-1564, 2017.
16. H. Zhang, Y. C. Jiao, G. Zhao et al., CRLH-SIW-based leaky wave antenna with low cross-polarisation for Ku-band applications, Electronics Letters, Vol.52, pp. 1426-1428, 2016.