个人简介:

张晓,男,1987年出生于广东高州,博士,深圳大学信息工程学院助理教授。本科和研究生就读于华南理工大学,博士毕业于澳门大学,师从著名学者、IEEE Fellow祝雷教授。20129月至20148月,在京信通信系统有限公司天线研发部负责电调智能天线的移相器的研发,期间成功研发且输出多个项目并成功量产。博士期间的主要研究方向为微带贴片天线,在改善天线的辐射性能方面做了大量的研究,理论功底深厚,对电磁场数值算法、滤波器设计、校准技术和天线测量等领域均有较深研究。截至2018年,共发表近30SCI论文,包含中科院一区/二区论文17篇,其中,在天线类顶级期刊IEEE Trans. Antennas Propag. 以第一作者身份发表论文7篇。2018年,获澳门科技奖之研究生科研奖,主持国家自然科学基金一项,同时被评为深圳市海外高层次人才(孔雀计划C类)。

 

教育经历

2018.03-至今 深圳大学信息工程学院,助理教授

2014.08-2018.09: 澳门大学,电机及电脑工程专业,博士

2011.09-2014.07: 华南理工大学,通信与信息系统专业,硕士

2007.09-2011.07 华南理工大学,信息工程专业,学士

 

研究方向:

天线理论与技术,滤波器与天线一体化设计理论,用于5G通信MIMO天线,用于车联网及人机交互的毫米波天线,用于卫星通信/定位的高性能圆极化平面天线

 

主持项目:

国家自然科学基金青年项目,“基于加载技术的高增益贴片天线的研究”,批准号:61801298,金额:25万,2019.01-2021.12,项目负责人


部分奖项:

2019.03 深圳市南山区“领航人才”

2018.09 深圳市高层次人才C

2018.10 澳门科技奖

2010.10 广东大学生设计竞赛一等奖

2009.12 全国大学生电子设计竞赛二等奖


办公室:信工楼N305

E-mailxiao.zhang@szu.edu.cn

 

目前本人课题组依托“广东省移动智能终端工程技术研究中心”和“广东省移动终端微波毫米波天线工程技术研究中心”两个省级研究平台,面向海内外招聘电磁场与微波技术、微波射频天线等相关领域博士后、副研究员。申请人既可根据自己条件和履历开拓新的研究课题,团队会尽力提供所需资源及平台,亦可选择参与团队目前的项目合作。详情(待遇)欢迎来邮咨询。

同时,欢迎优秀的在校学生加入课题组,产出的科研成果能够大大提升未来读研、出国深造或应聘工作的竞争力。



主要代表作:

[1] X. Zhang and L. Zhu, “Patch antennas with loading of a pair of shorting pins toward flexible impedance matching and low cross-polarization,” IEEE Trans. Antennas Propag., vol. 64, no. 4, pp. 1226-1233, Apr. 2016. (中科院二区, IF=4.130)

[2] X. Zhang and L. Zhu, “Gain-enhanced patch antennas with loading of shorting pins,” IEEE Trans. Antennas Propag., vol. 64, no. 8, pp. 3310-3318, Aug. 2016. (中科院二区,IF=4.130)

[3] X. Zhang and L. Zhu, “High-gain circularly polarized microstrip patch antenna with loading of shorting pins,” IEEE Trans. Antennas Propag., vol. 64, no. 6, pp. 2172-2178, Jun. 2016. (中科院二区,IF=4.130)

[4] X. Zhang, L. Zhu, and N.-W. Liu, “Pin-loaded circularly-polarized patch antennas with wide 3-dB axial ratio beamwidth,” IEEE Trans. Antennas Propag., vol. 65, no. 2, pp. 521-528, Feb. 2017. (中科院二区,IF=4.130the most popular paper of AP in Feb. 2017)

[5] X. Zhang and L. Zhu, “Gain-enhanced patch antenna without enlarged size via loading of slot and shorting pins,” IEEE Trans. Antennas Propag., vol. 65, no. 11, pp. 5702-5709, Nov. 2017. (中科院二区,IF=4.130)

[6] X. Zhang and L. Zhu, “Side-lobe-reduced and gain-enhanced square patch antennas with adjustable beamwidth under TM03 mode operation,” IEEE Trans. Antennas Propag., vol. 66, no. 4, pp. 1704-1713, Apr. 2018. (中科院二区,IF=4.130)

[7]  X. Zhang and L. Zhu, Dual-band high-gain differentially fed circular patch antenna working in TM11 and TM12 modes,” IEEE Trans. Antennas Propag., vol. 66. no. 6, pp. 3160-3165, Jun. 2018. (中科院二区,IF=4.130)

[8] X. Zhang, Q. S. Wu, L. Zhu, G.-L. Huang, and T. Yuan, “Resonator-fed wideband and high-gain patch antenna with enhanced selectivity and reduced cross-polarization” IEEE Access, vol. 7, pp. 49918-49927, Apr. 2019.

[9]  X. Zhang, L. Zhu, N.-W. Liu, and D.-P. Xie, Pin-loaded circularly- polarised patch antenna with sharpened gain roll-off rate and widened 3-dB axial ratio beamwidth, ” IET Microw., Antennas Propag., vol. 12, no. 8, pp. 1247-1254, Aug. 2018. (中科院四区,IF=1.739)

[10] D.-P. Xie, L. Zhu, and X. Zhang, “An EH0-mode microstrip leaky-wave antenna with periodical loading of shorting pins,” IEEE Trans. Antennas Propag., vol. 65, no. 7, pp. 3419-3426, Jul. 2017. (中科院二区,IF=4.130)

[11] Q. –S. Wu, X. Zhang, and L. Zhu, “A wideband circularly polarized patch antenna with enhanced axial ratio bandwidth via co-design of feeding network,” IEEE Trans. Antennas Propag., early access. (中科院二区,IF=4.130)

[12]  Q.-S. Wu, X. Zhang, and Lei Zhu, Co-design of a Wideband Circularly Polarized Filtering Patch Antenna with Three Minima in Axial Ratio Response, ” IEEE Trans. Antennas Propag., early access. (中科院二区,IF=4.130)

[13] X. K. Bi, X. Zhang, G.-L. Huang, and T. Yuan, “Compact microstrip NWB/DWB BPFs with controllable isolation bandwidth for interference rejection,” IEEE Access, in press, 2019. (中科院二区,IF=4.130)

[14] X. K. Bi, G.-L. Huang, X. Zhang, and T. Yuan, “Design of wideband and high-gain slotline antenna using multi-mode radiator,” IEEE Access, in press, 2019. (中科院二区,IF=4.130)

[15] 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. (中科院二区,IF=4.130)

[16]  N.-W. Liu, L. Zhu, W.-W. Choi, 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. (中科院二区,IF=4.130)

[17]  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 TM10 and TM12 modes”, IEEE Trans. Antennas Propag., vol. 66, no. 9, pp. 4854-4859, Sep. 2018. (中科院二区,IF=4.130)

[18] L.-P. Feng, L. Zhu, S. Zhang, and X. Zhang, “Compact Chebyshev Differential-Mode Bandpass Filter on/4 CPS Resonator With Intrinsic Common-Mode Rejection,” IEEE Trans. Antennas Propag., vol. 66, no. 9, pp. 4047-4056, Sep. 2018. (中科院二区,IF=3.176) 

[19] G. L. Huang, C. Z. Han, W. Xu, T. Yuan, and X. Zhang, “A compact 16-way high-power combiner implemented via 3-D metal printing technique for advanced radio-frequency electronics system applications,” IEEE Trans. Ind. Electron., in press. (中科院区,IF=7.05)