万向 - 东南大学 - 信息科学与工程学院

个人简介

万向，男，现任东南大学信息科学与工程学院副研究员，硕士生导师。2007年和2009年于武汉大学分别获得电磁场与微波技术专业工学学士与工学硕士学位，2014年于东南大学获得电磁场与微波技术专业工学博士学位。目前任职于东南大学毫米波国家重点实验室，主要研究现场可编程超表面的理论与应用技术、基于现场可编程超表面的新体制雷达通信系统。发表SCI收录期刊论文40余篇，论文被IEEE Transactions、Nature communications等国际著名期刊正面引用，他人引用次数总计1000余次，相关成果曾被国际学术期刊选为封面论文并被国内外科技媒体报道。授权发明专利7项。2016年获得中国光学重要成果奖，2017年获得军队科学技术进步一等奖。2018年入选首届东南大学“至善学者”。曾任2018年Metamaterials国际年会分会主席。目前担任Optics Express、Scientific Reports、IEEE AWPL、IEEE TAP等国际学术刊物审稿人。主持国家自然科学基金委青年基金项目（1项）、国家自然科学基金委国际（地区）合作与交流项目（1项）、江苏省自然科学青年基金项目（1项）、以及多项企事业横向合作项目。

研究领域

02微波毫米波电路与应用系统 05天线理论与技术 09新型电磁材料研究

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]Q. Zhang, C. Liu, X. Wan, L. Zhang, S. Liu, Y. Yang, and T. J. Cui, Machine-Learning Designs of Anisotropic Digital Coding Metasurfaces, Advanced Theory and Simulations, vol. 2, no. 2, Feb 2019, Art. no. 1800132. [1]X. Wan, T. Y. Chen, X. Q. Chen, L. Zhang, and T. J. Cui, Beam Forming of Leaky Waves at Fixed Frequency Using Binary Programmable Metasurface, Ieee Transactions on Antennas and Propagation, vol. 66, no. 9, pp. 4942-4947, Sep 2018. [2]L. Zhang, X. Q. Chen, S. Liu, Q. Zhang, J. Zhao, J. Y. Dai, G. D. Bai, X. Wan, Q. Cheng, G. Castaldi, V. Galdi, and T. J. Cui, Space-time-coding digital metasurfaces, Nature Communications, vol. 9, Oct 2018, Art. no. 4334. [3]X. Wan, T. J. Cui, and Ieee, Synthesizing Radiation Patterns of Binary Leaky-Wave Antenna (2018 Ieee International Workshop on Antenna Technology). 2018. [4]Q. Zhang, X. Wan, S. Liu, J. Y. Yin, L. Zhang, and T. J. Cui, Shaping electromagnetic waves using software-automatically-designed metasurfaces, Scientific Reports, vol. 7, Jun 2017, Art. no. 3588. [5]L. Zhang, X. Wan, S. Liu, J. Y. Yin, Q. Zhang, H. T. Wu, and T. J. Cui, Realization of Low Scattering for a High-Gain Fabry-Perot Antenna Using Coding Metasurface, Ieee Transactions on Antennas and Propagation, vol. 65, no. 7, pp. 3374-3383, Jul 2017. [6]J. Y. Yin, X. Wan, J. Ren, and T. J. Cui, A Circular Polarizer with Beamforming Feature Based on Frequency Selective Surfaces, Scientific Reports, vol. 7, Jan 2017, Art. no. 41505. [7]H. T. Wu, S. Liu, X. Wan, L. Zhang, D. Wang, L. L. Li, and T. J. Cui, Controlling Energy Radiations of Electromagnetic Waves via Frequency Coding Metamaterials, Advanced Science, vol. 4, no. 9, Sep 2017, Art. no. 1700098. [8]X. Wan, L. Zhang, S. L. Jia, J. Y. Yin, and T. J. Cui, Horn Antenna With Reconfigurable Beam-Refraction and Polarization Based on Anisotropic Huygens Metasurface, Ieee Transactions on Antennas and Propagation, vol. 65, no. 9, pp. 4427-4434, Sep 2017. [9]X. Wan, T. Y. Chen, and T. J. Cuib, One-dimensional leaky-wave antenna producing multiple beams, Aip Advances, vol. 7, no. 2, Feb 2017, Art. no. 025109. [10]Z. Tao, X. Wan, B. C. Pan, and T. J. Cui, Reconfigurable conversions of reflection, transmission, and polarization states using active metasurface, Applied Physics Letters, vol. 110, no. 12, Mar 2017, Art. no. 121901. [11]L. L. Li, T. J. Cui, W. Ji, S. Liu, J. Ding, X. Wan, Y. B. Li, M. H. Jiang, C. W. Qiu, and S. Zhang, Electromagnetic reprogrammable coding-metasurface holograms, Nature Communications, vol. 8, Aug 2017, Art. no. 197. [12]X. Wan, M. Q. Qi, T. Y. Chen, and T. J. Cui, Field-programmable beam reconfiguring based on digitally-controlled coding metasurface, Scientific Reports, vol. 6, Feb 2016, Art. no. 20663. [13]X. Wan, T. Y. Chen, Q. Zhang, J. Y. Yin, Z. Tao, L. Zhang, X. Q. Chen, Y. B. Li, and T. J. Cui, Manipulations of Dual Beams with Dual Polarizations by Full-Tensor Metasurfaces, Advanced Optical Materials, vol. 4, no. 10, pp. 1567-1572, Oct 2016. [14]J. Y. Yin, J. Ren, Q. Zhang, H. C. Zhang, Y. Q. Liu, Y. B. Li, X. Wan, and T. J. Cui, Frequency-Controlled Broad-Angle Beam Scanning of Patch Array Fed by Spoof Surface Plasmon Polaritons, Ieee Transactions on Antennas and Propagation, vol. 64, no. 12, pp. 5181-5189, Dec 2016. [15]X. Wan, S. L. Jia, T. J. Cui, and Y. J. Zhao, Independent modulations of the transmission amplitudes and phases by using Huygens metasurfaces, Scientific Reports, vol. 6, May 2016, Art. no. 25639. [16]S. Liu, L. Zhang, Q. L. Yang, Q. Xu, Y. Yang, A. Noor, Q. Zhang, S. Iqbal, X. Wan, Z. Tian, W. X. Tang, Q. Cheng, J. G. Han, W. L. Zhang, and T. J. Cui, Frequency-Dependent Dual-Functional Coding Metasurfaces at Terahertz Frequencies, Advanced Optical Materials, vol. 4, no. 12, pp. 1965-1973, Dec 2016. [17]S. Liu, T. J. Cui, L. Zhang, Q. Xu, Q. Wang, X. Wan, J. Q. Gu, W. X. Tang, M. Q. Qi, J. G. Han, W. L. Zhang, X. Y. Zhou, and Q. Cheng, Convolution Operations on Coding Metasurface to Reach Flexible and Continuous Controls of Terahertz, Advanced Science, vol. 3, no. 10, Oct 2016, Art. no. 1600156. [18]S. Liu, T. J. Cui, Q. Xu, D. Bao, L. L. Du, X. Wan, W. X. Tang, C. M. Ouyang, X. Y. Zhou, H. Yuan, H. F. Ma, W. X. Jiang, J. G. Han, W. L. Zhang, and Q. Cheng, Anisotropic coding metamaterials and their powerful manipulation of differently polarized terahertz waves, Light-Science & Applications, vol. 5, May 2016, Art. no. e16076. [19]Y. B. Li, L. L. Li, B. B. Xu, W. Wu, R. Y. Wu, X. Wan, Q. Cheng, and T. J. Cui, Transmission-Type 2-Bit Programmable Metasurface for Single-Sensor and Single-Frequency Microwave Imaging, Scientific Reports, vol. 6, Mar 2016, Art. no. 23731. [20]S. L. Jia, X. Wan, P. Su, Y. J. Zhao, and T. J. Cui, Broadband metasurface for independent control of reflected amplitude and phase, Aip Advances, vol. 6, no. 4, Apr 2016, Art. no. 045024. [21]J. Y. Yin, X. Wan, Q. Zhang, and T. J. Cui, Ultra Wideband Polarization-Selective Conversions of Electromagnetic Waves by Metasurface under Large-Range Incident Angles, Scientific Reports, vol. 5, Jul 2015, Art. no. 12476. [22]X. Wan, B. G. Cai, Y. B. Li, and T. J. Cui, Dual-channel near-field control by polarizations using isotropic and inhomogeneous metasurface, Scientific Reports, vol. 5, Nov 2015, Art. no. 15853. [23]W. X. Jiang, Y. B. Li, X. Wan, T. J. Cui, and Ieee, Controlling surface waves and/or propagating waves by metasurfaces (2015 1st URSI Atlantic Radio Science Conference). 2015. [24]S. L. Jia, X. Wan, X. J. Fu, Y. J. Zhao, and T. J. Cui, Low-reflection beam refractions by ultrathin Huygens metasurface, Aip Advances, vol. 5, no. 6, Jun 2015, Art. no. 067102. [25]S. L. Jia, X. Wan, D. Bao, Y. J. Zhao, and T. J. Cui, Independent controls of orthogonally polarized transmitted waves using a Huygens metasurface, Laser & Photonics Reviews, vol. 9, no. 5, pp. 545-553, Sep 2015. [26]X. Wan, J. Y. Yin, H. C. Zhang, and T. J. Cui, Dynamic excitation of spoof surface plasmon polaritons, Applied Physics Letters, vol. 105, no. 8, Aug 2014, Art. no. 083502. [27]X. Wan, X. P. Shen, Y. Luo, and T. J. Cui, Planar bifunctional Luneburg-fisheye lens made of an anisotropic metasurface, Laser & Photonics Reviews, vol. 8, no. 5, pp. 757-765, Sep 2014. [28]X. Wan, Y. B. Li, B. G. Cai, and T. J. Cui, Simultaneous controls of surface waves and propagating waves by metasurfaces, Applied Physics Letters, vol. 105, no. 12, Sep 2014, Art. no. 121603. [29]X. Wan, W. X. Jiang, H. F. Ma, and T. J. Cui, A broadband transformation-optics metasurface lens, Applied Physics Letters, vol. 104, no. 15, Apr 2014, Art. no. 151601. [30]X. Wan and T. J. Cui, Guiding spoof surface plasmon polaritons by infinitely thin grooved metal strip, Aip Advances, vol. 4, no. 4, Apr 2014, Art. no. 047137. [31]Y. B. Li, X. Wan, B. G. Cai, Q. Cheng, and T. J. Cui, Frequency-Controls of Electromagnetic Multi-Beam Scanning by Metasurfaces, Scientific Reports, vol. 4, Nov 2014, Art. no. 6921. [32]Y. B. Li, B. G. Cai, X. Wan, and T. J. Cui, Diffraction-free surface waves by metasurfaces, Optics Letters, vol. 39, no. 20, pp. 5888-5891, Oct 2014. [33]T. J. Cui, M. Q. Qi, X. Wan, J. Zhao, and Q. Cheng, Coding metamaterials, digital metamaterials and programmable metamaterials, Light-Science & Applications, vol. 3, Oct 2014, Art. no. e218. [34]X. Wan, X. P. Shen, and T. J. Cui, TE-mode coplanar imaging using weakly anisotropic metasurface, Optics Express, vol. 21, no. 15, pp. 17531-17538, Jul 2013. [35]X. Wan, H. F. Ma, W. X. Jiang, B. G. Cai, Q. Cheng, and T. J. Cui, Miniaturized Cavity Resonator Supporting Both Electromagnetic Resonances and Magneto-Inductive Resonances, Ieee Antennas and Wireless Propagation Letters, vol. 12, pp. 108-111, 2013.