一、简介：
徐速，男，博士，1987年生，吉林大学副教授。主要从事电磁波理论及应用、人工电磁媒质、超构器件、隐身技术、人工表面电磁波以及5G／6G天线技术的研究，曾在Physical Review Letters、PNAS、Advanced Optical Materials、Research、Optics Letters、Physical Review B、Applied Physics Letters、IEEE Transactions on Antenna Propagation、Optics Express、Scientific Reports等国际学术期刊发表论文；在天线与电磁系统国际会议（AES）、国际电磁学进展研讨会（PIERS）、海峡两岸四地无线电通信技术研讨会（CSQRWC）等国内外电磁学会议多次做特邀报告；为多家国际期刊担任审稿人，包括：Nature Communications, Advanced Optical Materials, Optics Letters, IEEE Access, Journal of the Optical Society of America B, Scientific Reports, Applied Physics A, Progress in Electromagnetics Research-PIER, Applied Optics, Advanced Electromagnetics；在Wiley期刊International Journal of Numerical Modelling: Electronic Networks, Devices and Field担任Associate Editor；担任超材料学会青年委员、PIERS等国际会议的分会组织者和分会主席。
二、研究方向：
电磁波理论及应用、人工电磁媒质、超构器件、隐身技术、人工表面电磁波、5G／6G天线技术。
三、讲授课程：
2017秋冬学期：本科生课程《信息电子学导论》week 3
2018春夏学期：本科生课程《信号与系统》重修班
2019秋冬学期：本科生课程《信号与系统》
2019春夏学期：研究生课程《数字通信》
2020春夏学期：本科生课程《电磁场与电磁波》
四、发表论文
期刊论文：
1.S. Xu#,*, J.-B. Bin Liu, H. Wang, C.-K. Su, and H.-B. Sun*, Three-dimensional metacrystals with broadband isotropic diamagnetic response and all-angle negative index of refraction, Optics Letters., 44(4), 927-930, 2019.
2.S.-Z. Wu, S. Xu*, T. L. Zinenko, V. V. Yachin, S. L. Prosvirnin, and V. R. Tuz, “3D-printed Chiral Metasurface as a Dichroic Dual-band Polarization Converter”, Optics Letters, 44(4), 1056-1059, 2019.
3.S. Xu#,*, A. Sayanskiy#, A. S. Kupriianov#, V. R. Tuz*, P. Kapitanova, H.-B. Sun, W. Han, and Y. S. Kivshar, “Experimental Observation of Toroidal Dipole Modes in All-dielectric Metasurfaces”, Advanced Optical Materials, 7, **, 2019.
4.S. Xu#,*, M. Zhang, H. Wen, and J. Wang*, “Deep-subwavelength Decoupling for MIMO Antennas in Mobile Handsets with Singular Medium,” Scientific Reports 7 12162, 2017.
5.Y. Deng#, S. Xu#, R. Zhang, B. Zheng*, H. Chen, F. Gao, F. Yu, B. Zhang*, and H. Chen*, "Ultra-broadband carpet cloak for transverse-electric polarization," Journal of Optics 18, 044006, 2016.
6.S. Xu#, H. Xu#, H. Gao, Y. Jiang, F. Yu, J. Joannopoulos*, M. Soljacic, H. Chen*, H. Sun*, and B. Zhang*, "Broadband surface-wave transformation cloak," Proceedings of the National Academy of Sciences of the United States of America 112, 7635-7638, 2015. Featured by Physorg, Materials 360 online.
7.S. Xu#, Y. Jiang, H. Xu, J. Wang, S. Lin, H. Chen*, and B. Zhang*, "Realization of deep subwavelength resolution with singular media," Scientific Reports 4, 5212, 2014.
8.S. Xu#, Y. Wang, B. Zhang*, H. Chen*, "Invisibility cloaks from forward design to inverse design," Science China Information Sciences 56, 120408, 2013.
9.S. Xu#, X. Cheng, S. Xi, R. Zhang, H. O. Moser, Z. Shen, Y. Xu, Z. Huang, X. Zhang, F. Yu, B. Zhang*, and H. Chen*, "Experimental demonstration of a free space cylindrical cloak without superluminal propagation," Physical Review Letters 109, 223903, 2012.
10.S. Xu#, L, Yang, L. Huang, and H. Chen*, "Experimental measurement method to determine the permittivity of extra thin materials using resonant metamaterials," Progress in Electromagnetics Research-PIER 120, 327-337, 2011.
11.M.-T. Li#, Z.-S. Hou*, Q.-L. Huang, S. Xu, A.W. Li*, “Laser printing controllable photonic-molecule microcavities”, Optics Communications 459, 125036, 2020.
12.M. Li#, L. Shen#, L. Jing, Su Xu, B. Zheng, X. Lin, Z. Wang*, H. Chen*, “Origami Metawall: Mechanically Controlled Absorption and Deflection of Light”, Advanced Science ** (Early View), 2019.
13.M. Y. Musa#, L. Shen*, Z. Wang, S. Xu, W. Yin, and H. Chen*, “Mid-infrared nanofocusing using fragmented high-order transformation optics”, IEEE Transactions on Antennas and Propagation, 67, 6515-6522, 2019.
14.M. Li#, L. Jing, X. Lin, S. Xu, L. Shen, B. Zheng, Z. Wang*, and H. Chen*, “Angular-adaptive spin-locked retroreflector based on reconfigurable magnetic metagrating,” Advanced Optical Materials, **, 2019.
15.L. Jing#, Z. Wang*, X. Lin, B. Zheng, S. Xu, Y. Yang, F. Gao, M. Chen, and H. Chen*, “Spiral Field Generation in smith-Purcell Radiation by Helical Metagratings,” Research **, 2019.
16.A. Sayanskiy#, A. S. Kupriianov, S. Xu, P. Kapitanova, V. Dmitriev, V. V. Khardikov, and V. R. Tuz*, “Controlling high-Q trapped modes in polarization-insensitive all-dielectric metasurfaces,” Phys. Rev. B, 99, 85306, 2019.
17.V.R. Tuz*, V. Khardikov, A. Kupriianov, K. Domina, S. Xu, H. Wang, H.-B. Sun, “High-quality trapped modes in all-dielectric metamaterials”, Optics Express 26(3), 2905-2916, 2018.
18.J. Wu#,*, H. Moser, S. Xu, L. Jian, A. Banas, K. Banas, H. Chen, A. Bettiol, and M. Breese*, "Functional multi-band THz meta-foils," Scientific Reports 3, 3531, 2013.
19.J. Wu#,*, H. O. Moser, S. Xu, A. Banas, K. Banas, H. Chen, and M. Breese, "From polarization-dependent to polarization-independent terahertz meta-foils," Applied Physics Letters 103, 191114, 2013.
20.Z. Duan#,*, S. Xu, H. Chen, and M. Chen, "Metamaterials design and challenges for THz radiation," (Invited paper) Terahertz Science and Technology 6, 113-124, 2013.
21.R. Alaee#,*, C. Menzel, A. Banas, K. Banas, S. Xu, H. Chen, H. O. Moser, F. Lederer, and C. Rockstuh, "Propagation of electromagnetic fields in bulk terahertz metamaterials: A combined experimental and theoretical study," Physical Review B 87, 075110, 2013.
 
会议论文：
1.Su Xu#,*, “Nano-Imprinting Based Metamaterial Absorber with Multi-Value Structural Resistance Integration,” Invited talk, Photonics & Electromagnetics Research Symposium-PIERS 2019 in Xiamen, Xiamen, China, 17-20, December 2019.
2.徐速#,*，“基于微纳米加工技术的大尺寸微波超材料及器件”（邀请报告），第一届全国超材料大会，中国西安，2019年11月25-27日
3.Su Xu#,*, “Localizing and converting microwaves with metasurfaces,” 2019 International Applied Computational Electromagnetics Society (ACES) Symposium, Nanjing, China, 8-11 August 2019.
4.Su Xu#,*, “Loss-free Broadband Wave Manipulation and Meta-device Designs with Infinitely Anisotropic Metamaterials,” Progress In Electromagnetics Research Symposium-PIERS 2018 in Toyama, Toyama, Japan, 1-4, August 2018.
5.Su Xu#,*, Ming Zhang, Xueliang Shi, Daqing Liu, Huailin Wen, Jun Wang, “Anisotropic metamaterial based decoupling strategy for MIMO antenna in mobile handsets,” Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT), 2017 International Workshop on, 34-37, Athens, Greece, 1-3 March 2017.
6.Su Xu#, Runren Zhang, Hongsheng Chen*, “Te-polarized microwave broadband carpet cloak,” Metamaterials (Meta), 2012 international workshop on, 1-3, **, Nanjing, China, 8-10 Otc 2012.
7.Xueliang Shi#,*, Ming Zhang, Su Xu, Daqing Liu, Huailin Wen, Jun Wang，“Dual-band 8-element MIMO antenna with short neutral line for 5G mobile handset”, Antennas and Propagation (EUCAP), 2017 11th European Conference on，3140-3142，Paris, France, 19-24 March 2017.
8.Xueliang Shi#,*, Ming Zhang, Daqing Liu, Su Xu, Dali Qin, Huailin Wen, Jun Wang, “Evaluation of performance of space limited MIMO antenna using a specialized MIMO system.” Antennas and Propagation (APCAP), 2016 IEEE 5th Asia-Pacific Conference on, 329-330, Kaohsiung, Taiwan, China, 26-29 July 2016.
9.Liqiao Jing#, Bin Zheng, Su Xu, Lian Shen, Hongsheng Chen, ‘Experimental study on invisibility cloaks’, Electromagnetics: Applications and Student Innovation Competition (iWEM), 2016 IEEE International Workshop on 1-3, **, Nanjing, China, 16-18 may 2016.
10.Hongsheng Chen#,*, Su Xu, Baile Zhang, Runren Zhang, Herbert O Moser, Zhi Shen, Yang Xu, Xianmin Zhang, “Large scale cylindrical cloak in free space without superluminal propagation,” 2012 international workshop on, 1-3, **, Nanjing, China, 8-10 Oct. 2012.
专利：
1.Inventor: Su Xu, Applicant: Huawei Technologies Co. Ltd., “A antenna structure and wireless handset,” CN4.5
2.Inventor: Su Xu and Huailin Wen, Applicant: Huawei Technologies Co. Ltd., “Terminal Antennas and Terminals,” CN0.0
3.Inventor: Su Xu and Huailin Wen, Applicant: Huawei Technologies Co. Ltd., “Antenna System,” CN5.5 and WO/2018/028323
4.Inventor: Su Xu and Jun Wang, Applicant: Huawei Technologies Co. Ltd., “Decoupling Assembly, Multi-Antenna System and Terminal,” CN6.8 and WO/2018/028162
 
学术报告交流：
2019.04 中国科学院苏州纳米技术与纳米仿生研究所，苏州，中国
2018.10 东南大学，南京，中国
2018.08 中国运载火箭技术研究院，北京，中国
2018.04 圣彼得堡国立信息技术机械光学大学，圣彼得堡，俄罗斯
未来科学国际合作联合实验室，长春，中国
五、主持科研项目：
1.国家自然科学基金重点项目，**，基于赝表面等离激元宽带太赫兹片上集成光子功能器件的研究，2020/01-2024/12，318万，子课题负责人（110万），在研；
2.国家X63计划XXXXXXXXXXXXXX技术，2019/09-2020/08，分课题负责人（55万），在研；
3.国家自然科学基金青年项目，**，基于飞秒激光加工技术的微波和可见光双频段隐身器件机理研究，2019/01-2021/12，24万，主持，在研；
4.中国船舶系统工程研究院项目，海上大气环境对XXX影响分析研究，2019／11-2020／05，15万，主持，在研；
5.中国航空制造研究院项目，金属XXXXXXXX设计，2019／10-2019／12，5万，主持，在研；
6.战略火箭创新基金，XXXXXX技术，2018/10-2019/11,10万，主持，在研；
7.国家自然科学基金面上项目，**，可见光频段电磁波隐身研究，2013/01-2016/12, 92万，参与，已结题；
8.国防科技预研，新型XXXXX关键技术研究，2012/01-2014/12，6万，参与，已结题；
9.十二五预研支撑项目，新型XXXXXXXX研究，2012/01-2013/08，25万，参与，已结题；
10.装备预研，基于XXXXXX材料结构设计与研制，2011/01-2013/12，80万，参与，已结题。
六、报考要求：
欢迎具备电磁学、数学等知识基础的学生加入本研究组！
“We analyze and manipulate electromagnetic waves, from radio to light!”
七、学生潜在发展方向：
学术界：可帮助推荐新加坡、俄罗斯、美国等国家知名高校，继续出国深造。
工业界：各大国防科研院所，华为、中兴、TP-LINK等企业。
潜在就业地点：北京、南京、上海、杭州、深圳、西安等国内城市
八、联系方式
办公室：唐敖庆楼D区205
电话：86-**
E-mail: xusu@jlu.edu.cn