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李茁，南京航空航天大学电子信息工程学院教授/博导，中国电子学会高级会员，中国电子学会天线分会委员，中国电子学会电磁兼容分会委员，中国航空学会电磁环境效应分会委员，江苏省通信工程高级专业技术资格评审评委会委员，江苏省中以产业园青年博士创新计划成员，IEEE会员，Journal of Physics D: Applied Physics咨询委员会委员，IMT-2030（6G）推进组智能全息无线电任务组成员。2009年4月毕业于东南大学毫米波国家重点实验室电磁场与微波技术专业，获工学博士学位。2013.05~2015.05在江苏吴通集团做企业博士后研究，2015.12~2016.12在美国亚利桑那州立大学访学。现从事电磁超材料、电磁兼容测试装备，雷达目标特性，微波传感系统等方向的研究。在Advanced Science, Nano Letters, Laser & Photonics Reviews, ACS Photonics, Advanced Photonics Nexus, Advanced Optical Materials, Physical Review Applied, IEEE T-MTTs, IEEE T-AP, IEEE T-IE, IEEE T-EMC, IEEE AP Magazine, 电子信息学报，电波科学学报等国内外期刊上发表SCI论文160余篇，ESI论文3篇，被引用2600余次。授权国家发明专利20余项，美国发明专利1项。主持国家重点研发计划子课题1项，国家自然科学基金2项，江苏省自然科学基金面上项目1项，空装预研基金1项、航空科学基金1项、毫米波国家重点实验室项目3项，南京市重大科技专项1项、横向课题20余项。2013年入选江苏省博士集聚计划，2017年入选江苏省青年科技人才托举工程，2018年入选江苏省六大人才高峰项目工程，2022年入选江苏省青蓝工程中青年学术带头人。2019年获中国电子学会自然科学二等奖，2022年获江苏省科学技术一等奖，2024年获校教学成果特等奖，二等奖各1项。团队主页：http://www.nuaa-meta.cn/Google Scholar个人主页：https://scholar.google.com/citations?hl=zh-CN&user=oFbqtP0AAAAJResearchgate个人主页：https://www.researchgate.net/profile/Zhuo_Li18个人邮箱：lizhuo@nuaa.edu.cn or zhuoliccem@gmail.com入选人才工程：1. 江苏省青蓝工程中青年学术带头人，2022年2. 南京航空航天大学长空学者“长空英才”，2019年3. 江苏省“六大人才高峰”高层次人才，2018年4. 江苏省青年科技人才托举工程，2017年5. 江苏省博士集聚人才计划，2013年研究方向：学科研究方向一：电磁场与微波技术主要研究方向有：1. 时空超材料;2. 电波混响室设计及应用;3. 计算电磁学方法及软件工程;4. 微波传感系统及应用。学科研究方向二：物理电子学光电融合超材料发表学术论文,出版专著情况：Books and Chapters[1] H. Y. Sun, C. Q. Gu, Z. Li, F. Martin, Metamaterials and Metasurfaces, Chapter title: Coding metasurfaces and applications.[2] Z. Li, L. L. Liu, C. Q. Gu and Y. Luo, "Designer surface plasmon polaritons: Fundamentals and Applications" Selected Journal Publications （*：Corresponding Author)2025[1] Yukun Yang, Hao Hu, Liangliang Liu, Yihao Yang, Youxiu Yu, Yang Long, Xuezhi Zheng, Yu Luo, Zhuo Li*, F. J. Garcia-Vidal, "Topologically protected edge states in time photonic crystals with chiral symmetry", ACS Photonics，published online.[2] Zhiwen Dong, Xinlei Chen, Fan Gao, Changqing Gu, Zhuo Li, Wu Yang, Weibing Lu, "Combined Field Integral Equation Using Multibranch RWG Functions for Electromagnetic Scattering from Piecewise Homogeneous Objects with Junctions", IEEE Antennas and Wireless Propagation Letters, Accepted.[3] Yaoran Zhang, Ling Jian, Yuying Jiang, Zhepeng Fu, Hao Hu, Liangliang Liu, Yu Luo, and Zhuo Li*, "A Compact Reconfigurable Orbital Angular Momentum Antenna Based on A Single Spoof Localized Surface Plasmonic Resonator", IEEE Transactions on Antennas and Propagation, In revision.[4] Hongyi Li,, Haobin Hu, Zixiang Zhou, Jindi Huang, Fuheng Wang, Hao Hu* , Zhuo Li*, and Liangliang Liu*"Highly Compact and Robust Filters Enabled by Effective Localized Surface Plasmonic Resonance", Journal of Physics D: Applied Physics, In revision.[5] Hongyi Li, Liangliang Liu, Lingyun Niu, Lepeng Zhang, Hao Hu, Haochi Zhang, and Zhuo Li*, "Ultra-Wideband and Miniaturized Waveguide Band-Pass Filter Based on Effective Surface Plasmon Polaritons", Physical Review Applied, In revision.[6] Peng Hu, Fujun Deng, Kai Guo, Shengyan Chen, Ru Wang, Liangliang Liu, Zhuo Li, "Theoretical Estimation on Maximum-to-Maximum Ratio of the Total Electric Field to Its Rectangular Component Within Reverberation Chambers", IEEE Transactions on Electromagnetic Compatibility, Under review.2024[1] Yaoran Zhang, Hao Hu, F. J. Garcia-Vidal, Liangliang Liu, Yu Luo, and Zhuo Li*, "Reconfigurable Exceptional Point-based Sensing with 0.001λ Sensitivity Using Spoof Localized Surface Plasmons", Advanced Photonics Nexus 3, 056004，2024. （Featured in "EurekAlert!","Phys.org","Scienmag.com","Bioengineer.org","Statnano.com","Nanowerk.com","Knowridge.com"）[2] T. J. Cui et al "Roadmap on Electromagnetic Metamaterials and Metasurfaces", JPhys Photonics 6 032502, 2024. [3] Yuying Jiang, Shuying Li, Xinlei Chen, Changqing Gu, and Zhuo Li*, "Frequency-polarization multiplexing reflective metasurface for orbital angular momentum generation", Applied Physics Letters, 124, 221701, 2024.[4] Huachen Xue, Liangliang Liu, Hui Cong, Zhepeng Fu, Zhengtao Zhu, Dan Shen, Zhuo Li*, "Low-profile reconfigurable saline water-based ultrawideband metamaterial absorber", Journal of Physics D: Applied Physics, 57 145102, 2024.[5] Shuying Li, Liangliang Liu, Yuying Jiang, Huijuan Dai, Chunzi Tang, Guodong Han, Changqing Gu, Zhuo Li*, "High-Performance Low-Profile Green Electromagnetic Interference Shielding Material for 5G mm-wave Using Characteristic Mode Theory", Journal of Physics D: Applied Physics, 57 145103, 2024.[6] Jingming Chen, Qinnan Xie, Jingjing Zhang*, Zhuo Li, Tie Jun Cui* and Yu Luo*, "Coherent-resonance enhancement of sensing at the exceptional points", Advanced Optical Materials, 2024, 2302268.[7] Z. W. Dong, X. L. Chen, F. Gao, C. Q. Gu, Z. Li, W. Yang, and W. B. Lu, "Efficient Iterative Solution of Combined Source Integral Equation Using Characteristic Basis Function Method with Initial Guess", IEEE Journal on Multiscale and Multiphysics Computational Techniques, vol. 9, pp. 142-148, 2024.[8] Youxiu Yu, Dongliang Gao, Liangliang Liu, Zhuo Li, Qianru Yang, Haotian Wu, Linyang Zou, Xiao Lin, Jiang Xiong, Songyan Hou, Lei Gao, and Hao Hu, "Generalized Coherent Wave Control at Dynamic Interfaces", Laser & Photonics Reviews，2024, 2400399.[9] Liu Yun, Zhang Xiaojie, Li Zhuo, "Iterative Synthesis Method for High-Directivity Symmetrical Stepped-Impedance Microstrip ParallelLine Coupler", IET Microwaves, Antennas & Propagation, 1–8 (2024). 2023[1]Youxiu Yu, Hao Hu, Linyang Zou, Qianru Yang, Xiao Lin, Zhuo Li, Lei Gao and Dongliang Gao, "Antireflection spatiotemporal metamaterials", Laser & Photonics Reviews, 2023, 2300130. （封面论文）[2] Yuying Jiang, Liangliang Liu, Shuying Li, Chunzi Tang, Zhengzhi Luo, Zhengtao Zhu, Yuxiang Cao, Changqing Gu, Zhuo Li*, "Highly Efficient Decoupled Triple-channel OAM Generation with a Single-layer Shared Aperture Reflective Metasurface", Advanced Optical Materials, 11, 2202071, 2023.[3] Xinhua Li, Liangliang Liu, Yaoran Zhang, Yue Feng, Guodong Han, Helin Yang, Hao Hu, Yu Luo, and Zhuo Li*, "Hybridization of Localized Spoof Plasmonic Skyrmions and its Application in Micro-displacement Sensing", Advanced Optical Materials, 2023, 2302744.[4] Minghui Pang, Qiuming Zhu, Cheng-Xiang Wang, Zhipeng Lin, Junyu Liu, Chongyu Lv, Zhuo Li, "Geometry-Based Stochastic Probability Models for the LoS and NLoS Paths of A2G Channels under Urban Scenarios" IEEE Internet of Things Journal. Vol. 10, No. 3, pp. 2360-2372, 2023.[5]Xinlei Chen, Liyang Zhang, Changqing Gu, Zhuo Li*, "Wideband Sherman-Morrison-Woodbury Formula-Based Algorithm for Electromagnetic Scattering Problems", IEEE Transactions on Antennas and Propagation, vol. 71, no. 6, pp. 5487-5492, June 2023.[6] Liangliang Liu, Jinrui Shen and Zhuo Li*, "Tuning Magneto-Electric Coherent Resonance with a Deep-Subwavelength Localized Spoof Surface Plasmonic Structure", Optics Letters, 48(4), 855-858, 2023.[7]Fan Gao, Xinlei Chen, Guiyue Yu, Ziwei Li, Changqing Gu, Zhuo Li,"Multibranch Curvilinear Rao-Wilton-Glisson Basis Functions for Electromagnetic Scattering From Perfet Electric Conducting Targets", IEEE Antennas and Wireless Propagation Letters, vol. 22, no. 7, pp. 1522-1526, July 2023.[8]李姝颖，姜玉莹，戴会娟，刘亮亮，顾长青，李茁*，"面向5G毫米波的绿色多性能电磁屏蔽材料", 复合材料学报，Vol. 40, No. 5, pp.2688-2698, 2023.[9] Z. X. Zhou, L. L. Liu, X. H. Li, J. R. Shen, G. D. Han, and Z. Li*, "A Compact Dual-passband Filter based on Quarter Wavelength ELSPs Resonators", ACES Journal, vol. 37, no. 10, pp. 1031–1038, Mar. 2023.[10]庞明慧;台鑫;吕崇玉;朱秋明;华博宇;李茁,"面向5G无人机通信场景的传播路径概率预测模型", 电波科学学报, Vol.38, No.1, pp.54-62, 2023.2022[1] L. Y. Liu, Y. Liu, X. H. Jin, Z. Li, Y. B. Tian, "A Broad Dual-band Bandpass Filter Design Based on Double-layered Spoof Surface Plasmon Polaritons", Electronics, 2022, 11(5), 697.[2] L. L. Liu* and Z. Li*, "Spoof Surface Plasmons Arising from Corrugated Metal Surface to Structural Dispersion Waveguide", Progress in Electromagnetics Research, Vol. 173, 93-127, 2022. [3] X. H. Li, L. L. Liu, Z. X. Zhou, J. R. Shen, Y. R. Zhang, G. D. Han and Z. Li*, "Highly Sensitive and Topologically Robust Multimode Sensing on Spoof Plasmonic Skyrmions", Advanced Optical Materials, 2200331, 2022. (SCI, IF=10.05，中科院1区Top期刊)[4] Shuying Li, Liangliang Liu,* Yuying Jiang, Chunzi Tang, Changqing Gu* and Zhuo Li*,"Ultrathin optically transparent electromagnetic shielding window with broadband microwave absorption and ultrahigh optical transmittance", International Journal of RF and Microwave Computer-Aided Engineering, 32(11): e23338,2022.[5] 李姝颖，姜玉莹，刘亮亮，顾长青，李茁，X波段低RCS光学透明电磁屏蔽材料设计，电磁窗技术，pp.19-23, No. 1, 2022.[6] Minghui Pang, Qiuming Zhu, Zhipeng Lin, Fei Bai, Yue Tian, Zhuo Li, Xiaomin CHEN,"ML-based altitude-dependent empirical LoS probability model for air-to-ground communications", Frontiers of Information Technology & Electronic Engineering, 23(9):1378-1389, 2022.[7] Shuying Li, Yuying Jiang, Liyan Zhu, Huijuan Dai, Chunzi Tang, Liangliang Liu, Changqing Gu, Zhuo Li*, "Multifunctional Green Electromagnetic Interference Shielding Material for Sub-6GHz Band", ACS Applied Electronic Materials, 4, 11, 5632–5640, 2022. 2021[1] Y. R. Yu, L. L. Liu, Q. Jiang, Y. F. Zhao, Y. R. Zhang, Y. Luo, C. Q. Gu, Z. Li*, "Ultra-compact Effective Localized Surface Plasmonic Bandpass Filter for 5G Applications", IEEE Transactions on Microwave Theory and Techniques, Vol.69, No.4, pp. 2220-2228, April, 2021.[2] Q. Jiang, Y. R. Yu, Y. F. Zhao, Y. R. Zhang, Y. Luo, L. L. Liu and Z. Li*, "Ultra-compact ELSPs Sensor for Permittivity Measurement of Aqueous Ethanol Solution with High Sensitivity", IEEE Transactions on Instrumentation and Measurement, 6008709, Vol. 70, pp.1-9, June, 2021.[3] Y. F. Zhao, S. Y. Li, Y. Y. Jiang, L. L. Liu and Z. Li*, “An ultra-wideband and wide-angle optically transparent flexible microwave metamaterial absorber" , Journal of Physics D: Applied Physics, 54 275101, 2021. [4] S. Y. Li, C. Q. Gu, Y. Y. Jiang, H. B. Hu, H. J. Dai, Q. Jiang, L. L. Liu and Z. Li*, "Ultrathin optically transparent metamaterial absorber for broadband microwave invisibility of solar panel", Journal of Physics D: Applied Physics, 55 045101，2021.（IOP公众号《编辑优选》）[5] Minghui Pang, Qiuming Zhu, Fei Bai, Zhuo Li, Hanpeng Li, Kai Mao, Yue Tian, "Height-Dependent LoS Probability Model for A2G MmWave Communications under Built-up Scenarios", Preprint. https://arxiv.org/pdf/2109.02263.pdf[6] Zhengran Xu, Liangliang Liu, Zhuo Li, "Band-stop Filter Based on Moire Spoof Surface Plasmon Polaritons", 2021 International Conference on Microwave and Millimeter Wave Technology, May 23-26, Nanjing, China. (Best Student Paper Honorable Mention). 2020[1] H. Z. Zhao, Y. J. Zhou, J. Cai, Q. Y. Li, Z. Li, Z. Y. Xiao, "Ultra-high resolution sensing of glucose concentration based on amplified halfinteger localized surface plasmons mode", Journal of Physics D: Applied Physics 53 095305, 2020.[2] Xinlei Chen, Xiuqiang Liu, Zhuo Li, and Changqing Gu, Efficient Calculation of Interior Scattering from Cavities with Partial IBC Wall, Electronics Letters, vol. 56, no. 17, pp. 871-873, 2020.[3] H. F. Shang, Y. Liu, Z. Li, Y. B. Tian, "Broadband Bandpass Filter with Double-layered Spoof Surface Plasmon Waveguide as Main Transmission Line", International Journal of RF and Microwave Computer-Aided Engineering, Early access. 2020. 2019[1] Z. Li*, L. L. Liu, A. I. Fernandez-Dominguez, J. F. Shi, C. Q. Gu, F. J. Garcia-Vidal* and Y. Luo*, "Mimicking Localized Surface Plasmons with Structural Dispersion", Advanced Optical Materials, 7，20190018, 2019.(Highlited on the Front Cover)[2]J. F. Shi, Z. Li*, L. L. Liu*, K. Wang, Y. H. Sun and C. Q. Gu, "Lateral dimension tuned ultra-low loss effective surface plasmonic waveguide", Journal of Physics D: Applied Physics 52 105101, 2019.[3] L. L. Liu*, L. Ran, H. D. Guo, X. L. Chen and Z. Li*,"Broadband Plasmonic Circuitry Enabled By Channel Domino Spoof Plasmons," PIER, Vol. 164, 109-118, 2019.[4] L. Guo, H. P. Li, Y. Wang, Z. Li, J. G. Albeck, M. Zhao, Q. Qing, "Controlling ERK Activation Dynamics in Mammary Epithelial Cells with Alternating Electric Fields through Microelectrodes", Nano Lett. 2019, 19, 10, 7526–7533.[5] H. Y. Sun, C. Q. Gu*, Z. Li, Q. Xu, M. M. Wei, J. J. Song, B. J. Xu, X. H. Dong, K. Wang, F. Martin*, "Parametric testing of metasurface stirrers for metasurfaced reverberation chambers", Sensors 2019, 19, 976[6] W Chen, Z Niu, M Li, Z Li, Q Xu, C Gu, "Design and evaluation of planar bifilar helical antennas for radio frequency identification tags",IEEE Antennas and Wireless Propagation Letters, 18 (12), 2642-2646, 2019. 2018[1] Z. Li*, Y. H. Sun, K. Wang, J. J. Song, J. F. Shi, C. Q. Gu, L. L. Liu and Y. Luo, "Tuning the dispersion of effective surface plasmon polaritons with multilayer systems", Optics Express,Vol.26, Issue 4, pp.4686-4697,2018.[2] H. Y. Sun, Z. Li*, C. Q. Gu*, Q. Xu, X. L. Chen, Y. H. Sun, S. C. Lu and F. Martin, "Metasurfaced Reverberation Chamber", Scientific Reports(2018)8:1577.[3] L. L. Liu, L. Wu, J. J. Zhang, Z. Li*, B. L. Zhang* and Y. Luo*, "Backward Phase-Matching for Second Harmonic Generation in Negative-Index Spoof Plasmonic Metamaterials", Advanced Science 5, 180661, 2018[4] H. Y. Sun, C. Q. Gu, Z. Li, Q. Xu, J. J. Song, B. J. Xu and F. Martin,"Enhancing the number of modes in metasurfaced reverberation chamber for field uniformity improvement", Sensors 2018, 18, 3301[5] H. J. Dai, Y. J. Zhao, H. Y. Sun, J. Q. Chen, Y. Ge and Z. Li, "An ultra-wideband linear polarization conversion metasurface", Japanese Journal of Applied Physics 57(9):090311 [6] X. H. Dong, H. Y. Sun, C. Q. Gu*, Z. Li, X. L. Chen, B. J. Xu, "Reflective Metasurface For Vortex Wave Generating and Divergence Reducing in X-Band", Progress In Electromagnetics Research C, Vol.87, pp.97–106, 2018[7] Z. Li*, C. Chen, J. Xu, Y. H. Sun, B. Z. Xu, L. L. Liu, H. Y. Sun, X. L. Chen, C. Q. Gu, "Tunable spoof surface plasmons bulleye antenna", Plasmonics , Vol.13, Issue 2, pp.697–703, April 2018. 2017[1] Z. Li*, L. L. Liu, H. Y. Sun, Y. H. Sun, C. Q. Gu, X. L. Chen, Y. Liu and Y. Luo, "Effective surface plasmon polaritons induced by modal dispersion in a waveguide", Phys. Rev. Applied 7, 044028, 2017 (Research Highlight in Nanyang Technological University, Singapore)（1区Top）[2] Z. Li*, Y. H. Sun, H. Y. Sun, K. Wang, J. J. Song, L. L. Liu, X. L. Chen , C. Q. Gu, "Spoof surface plasmons tunneling through an epislon-near-zero material channel", Journal of Physics D: Applied Physics, 50 375105, 2017.[3] B. Z. Xu, Z. Li*, L. L. Liu, J. Xu, C. Chen and C. Q. Gu,"Non-concentric textured closed surface for huge local field enhancement", Journal of Optics, Vol.19, No.1, 015005,2017. [4] L. L. Liu, Z. Li*, B. Z. Xu, C. Q. Gu, J. Xu, C. Chen, H. Y. Sun, Q. X. Xiao, Y. J. Zhou, Q. Qing, P. Shum, and Y. Luo*, "Ultra Low Loss High-Contrast Gratings based Spoof Surface Plasmonic Waveguide", IEEE Transactions on Microwave Theory and Techniques, Vol.65, Issue 6, pp.2008-2018, 2017.[5] L. L. Liu, Z. Li*, B. Z. Xu, J. Xu, C. Chen, C. Q. Gu, "Fishbone-like high-efficiency low-pass plasmonic filter based on double-layered conformal surface plasmons", Plasmonics，Vol.12, Issue 2, pp.439-444, 2017[6] H. Y. Sun, C. Q. Gu, X. L. Chen, Z. Li, L. L. Liu, B. Z. Xu, Z. C. Zhou,"Broadband and Broad-angle Polarization-independent Metasurface for Radar Cross Section Reduction", Scientific Reports 7,40782,2017[7] H. Y. Sun, C. Q. Gu, X. L. Chen, Z. Li, L. L. Liu, and F. Martin, "Ultra-Wideband and Broad-Angle Linear Polarization Conversion Metasurface", Journal of Applied Physics 121 174902 (2017) [8] X. L. Chen, C. Fei, Y. Zhang, Z. Li, C. Q. Gu,"Fast Iterative Solution of EFIE Using ACA Algorithm With Sherman-Morrison-Woodbury Formula-Based Preconditioner", IEICE ELECTRONICS EXPRESS, 14(8), 2017 2016[1] Z. Li*, L. L. Liu, B. Z. Xu, P. P. Ning, C. Chen, J. Xu , X. L. Chen , C. Q. Gu, Q. Qing, "High-Contrast Gratings based Spoof Surface Plasmons", Scientific Reports, 6, 21199, 2016 [2] Z. Li*, B. Z. Xu, L. L. Liu, J. Xu, C. Chen, P. P. Ning, X. L. Chen and C. Q. Gu,"Localized Spoof Surface Plasmons based on Subwavelength Closed High Contrast Gratings: Concept and Microwave-Regime Realizations", Scientific Reports, 6, 27158, 2016 [3] Z. Li*, J. Xu, C. Chen, Y. H. Sun, B. Z. Xu, L. L. Liu, C. Q. Gu, "Coplanar waveguide wideband band-stop filter based on localized spoof surface plasmons", Applied Optics, Vol.55, Issue 36, pp.10323-10328,2016.[4] L. L. Liu, Z. Li*, B. Z. Xu, P. P. Ning, C. Chen, J. Xu , X. L. Chen , C. Q. Gu,"Deep-subwavelength Guiding and Superfocusing of Spoof Surface Plasmon Polaritons on Helically Grooved Metal Wire", Plasmonics, Vol.11, Issue 2, pp.359-364,2016[5] J. Xu, Z. Li*, L. L. Liu, C. Chen, B. Z. Xu, P. P. Ning, C. Q. Gu,"Low-pass plasmonic filter and its miniaturization based on spoof surface plasmon polaritons", Optics Communications 372(2016)155–159[6] B. Z. Xu, Z. Li*, L. L. Liu, J. Xu, C. Chen and C. Q. Gu,"Bandwidth tunable microstrip bandstop filters based on localized spoof surface plasmons", Journal of the Optical Society of America B 33(7), 1388-1391 (2016)[7] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu,"Sparsified Multi-level Adaptive Cross Approximation-Characteristic Basis Function Method for Fast Electromagnetic Scattering Analysis", Electromagnetics 36(7)pp.457-469, 2016.[8] C. Fei, X. L. Chen*, Y. Zhang, Z. Li, C. Q. Gu, "A Hybrid Method to Accelerate the Calculation of Two-Dimensional Monostatic Radar Cross Section on PEC Targets", Progress In Electromagnetics Research, 50, pp.47-54, 2016.[9] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu， “Accelerated Direct Solution of Electromagnetic Scattering via Characteristic Basis Function Method With Sherman-Morrison-Woodbury Formula-Based Algorithm”, IEEE Transaction on Antennas and Propagation, vol. 64, no. 10, 4482-4486, 2016.[10] Y. Zhang, X. L.. Che, C. Fei, Z. Li, C. Q. Gu,"Fast direct solution of composite conducting-dielectric arrays using sherman-morrison-woodbury algorithm", Progress In Electromagnetics Research M 49:203-209, 2016[11] X. L. Chen, C. Q. Gu, A. Heldring, Z. Li, and Q. S. Cao, "Error Bound of the Multilevel Adaptive Cross Approximation (MLACA)," IEEE Transaction on Antennas and Propagation, vol. 64, no. 1, 374-378, 2016. 2015[1] L. L. Liu, Z. Li*, B. Z. Xu, C. Q. Gu, C. Chen, P. P. Ning, X. L. Chen...