游检卫

发布者:沈如达发布时间:2023-10-25浏览次数:775

基本信息

姓名:游检卫

性别:

民族:

专业:电磁场与微波技术

工作单位:tyc234cc 太阳成集团

学院:tyc234cc 太阳成集团

实验室:毫米波全国重点实验室

电话:15895895364

Emailjvyou@seu.edu.cn

职称:教授,博导,国家级高层次青年人才,tyc234cc 太阳成集团青年首席教授

个人主页:http://seu.teacher.360eol.com/teacherBasic/preview?teacherId=9618

教育与工作经历:

2006 – 2010西安电子科技大学,电子工程学院,学士学位

2010 – 2015tyc234cc 太阳成集团,tyc234cc 太阳成集团,博士学位

2016 – 2021伦敦大学学院,电子工程系,副研究员

2022 – 至今: tyc234cc 太阳成集团,tyc234cc 太阳成集团,tyc234cc 太阳成集团青年首席教授

个人简介

游检卫,教授、博导、tyc234cc 太阳成集团青年首席教授、国家级高层次青年人才、IEEE高级会员。长期从事“电磁超构材料”和“计算电磁学”的软硬件开发,相关研究成果发表了70余篇学术论文、专著/章节5部,包括第一作者发表Science子刊、Nature子刊、IEEE Trans. 旗舰期刊等。拥有自主知识产权的软硬件平台服务于我国重点单位,获中国高等学校十大科技进展、中央高校优秀青年团队、江苏省科学技术一等奖等。主持和参与欧盟地平线计划欧洲研究理事会(ERC)重大项目、英国工程与自然科学研究理事会(EPSRC)项目、国家自然科学基金项目、国家重点研发计划项目、江苏省自然科学基金项目、南京市留学人员科技创新择优资助项目等。

研究方向

计算电磁学:时域电磁数值算法、智能电磁计算、多物理场数值计算、量子电磁计算等;

电磁超材料:量子启发式电磁超材料、智能电磁超材料、多物理电磁超材料等;

获奖情况:

2023江苏省科学技术一等奖(排名第二)

2023中央高校优秀青年团队(排名第二)

2022中国高等学校十大科技进展(青年骨干排名第二)

2022国家级高层次青年人才

2021电气与电子工程师协会高级会员(IEEE Senior Member

2018美国光学学会青年科学家提名奖

 

论文著作:

www.researchgate.net/profile/Jian-Wei-You/research

代表性学术专著及论文

专著:

[1]     Jian Wei You,   Zhihao Lan, and Nicolae C. Panoiu, Nonlinear topological     photonics. In: Fundamentals and Applications of Nonlinear   Nanophotonics, Elsevier   Press, Cambridge, United States, 2023.

[2]     Jian Wei You, and   Nicolae C. Panoiu, Nonlinear optical properties of 2D   materials.   In: Encyclopedia of   Nanomaterials, pp.562-599.   Oxford: Elsevier Press, Kidlington, United   Kingdom, 2023.

[3]     Nicolae C. Panoiu, and   Jian   Wei You, Theory and applications of nonlinear optical interactions     in 2D materials. In: Advances in   Nonlinear   Photonics, pp.247-286. Oxford: Elsevier   Press,   Kidlington, United Kingdom, 2023.

[4]     Ming Fang, Qun Ren, Jian     Wei You, Zhihao Lan, Zhixiang Huang, Wei E. I. Sha,   Advanced applications   of nonlinear plasmonics. In: Plasmon-enhanced     Light-matter Interactions, pp.117-135. Springer Nature,   Switzerland, 2022.

[5]     游检卫电磁超材料,第七章,超材料前沿进展:量子超材料,tyc234cc 太阳成集团出版社,2022. (江苏省十四五重点图书规划项目)

代表性论文:

*代表通信作者

[1]      You J.W., Ma, Q., Lan, Z., Xiao, Q., Panoiu, N.C. and Cui, T.J.,      Reprogrammable plasmonic topological insulators with ultrafast   control. Nature   Communications, 12(1),   pp.1-7, 2021.

[2]      You J.W., Lan, Z. and Panoiu, N.C., Four-wave mixing of topological     edge plasmons in graphene metasurfaces. Science   Advances, 6(13),   p.eaaz3910, 2020. 

[3]      Chen, L., You J.W.*, Gu, Z., Ma, Q. and   Cui, T.J., Analog Quantum Bit Based on Pancharatnam‐Berry Phase Metasurfaces.   Advanced   Quantum Technologies, p.2300135, 2023.

[4]      You J.W., Lan Z, Ma Q, Gao Z, Yang Y, Gao F, Xiao M, Cui TJ.   Topological   metasurface: From passive toward active and beyond. Photonics     Research. 11(3):B65-102, 2023.

[5]      You J.W., Ma Q, Zhang L, Liu C, Zhang J, Liu S, Cui   T.   Electromagnetic Metamaterials: From Classical to   Quantum. Electromagnetic   Science. 1(1):1-33,   2023.

[6]      Zhang J, You J.W.*,     Feng F, Na W, Lou ZC, Zhang QJ, Cui TJ. Physics-Driven   Machine-Learning   Approach Incorporating Temporal Coupled Mode   Theory for Intelligent Design of   Metasurfaces. IEEE   Transactions on Microwave Theory and Techniques. 71(7),   pp.2875-2887, 2023.

[7]      You, J.W. and Panoiu, N.C., Analysis of the interaction   between classical and quantum   plasmons via FDTD-TDDFT   method. IEEE Journal on Multiscale and   Multiphysics   Computational Techniques4, pp.111-118, 2019.

[8]      You J. W., Zhang JF, Gu WH, Cui WZ, Cui TJ. Numerical analysis of     passive intermodulation arisen from nonlinear contacts in HPMW   devices. IEEE Transactions on Electromagnetic Compatibility.   60(5):1470-80, 2017.

[9]      You, J.W., Wang HG, Zhang JF, Li Y, Cui WZ, Cui TJ. Highly   efficient and adaptive numerical scheme to analyze multipactor in waveguide   devices. IEEE Transactions on Electron   Devices.   62(4):1327-33, 2015.

[10]   You, J.W., Tan SR, Cui TJ.   Novel adaptive steady-state   criteria for finite-difference time-domain   method. IEEE   Transactions on Microwave Theory and Techniques. 62(12):2849-58,   2014.

部分学术期刊论文

[1]        Chen, L.,   You J.W.*, Gu, Z., Ma, Q. and Cui, T.J., Analog   Quantum Bit Based on Pancharatnam‐Berry Phase Metasurfaces. Advanced   Quantum Technologies, p.2300135, 2023.

[2]      You J.W., Ma Q, Zhang L, Liu C, Zhang J, Liu S, Cui   T.   Electromagnetic Metamaterials: From Classical to   Quantum. Electromagnetic   Science. 2023   Mar;1(1):1-33.

[3]       Chen L,   Lan Z, Wu XW, Ma Q, You J.W.*, Cui TJ. Analog Quantum   Valley–Hall and Quantum Spin Hall   Plasmons in Graphene   Metasurfaces with Low Point Group Symmetry. Advanced     Physics Research. 2023:2200076.

[4]       You J.W., Lan Z, Ma Q, Gao Z,   Yang Y, Gao F, Xiao M, Cui TJ.   Topological metasurface: From   passive toward active and beyond. Photonics   Research.   11(3):B65-102, 2023.

[5]       Zhang J, You J.W.*,     Feng F, Na W, Lou ZC, Zhang QJ, Cui TJ. Physics-Driven   Machine-Learning   Approach Incorporating Temporal Coupled Mode   Theory for Intelligent Design of   Metasurfaces. IEEE   Transactions on Microwave Theory and Techniques.   2023.

[6]      Lan Z, Chen ML, You   J.W.*,   Wei EI. Large-area quantum-spin-Hall waveguide states in a     three-layer topological photonic crystal heterostructure. Physical     Review A. 2023 Apr 12;107(4): L041501.

[7]      Lou Z, Wu X, Hou J, Zhang J, You   J.W.*, Cui T. Numerical Modelling of Dynamic Electromagnetic     Problems Based on the Time-Domain Finite Integration   Technique. Electronics.   2022 Nov   26;11(23):3912.

[8]       You, J.W., Ma, Q., Lan, Z.,     Xiao, Q., Panoiu, N.C. and Cui, T.J., Reprogrammable   plasmonic   topological insulators with ultrafast control. Nature     communications12(1), pp.1-7, 2021.

[9]       Zhang, Z., You, J.W., Lan, Z. and   Panoiu, N.C., Lattice topological edge and corner   modes of   photonic crystal slabs. Journal of Optics23(9),     p.095102, 2021. 

[10]   Lan, Z., You, J.W., Ren, Q., Wei,  E.I.   and Panoiu, N.C., Second-harmonic generation via double topological     valley-Hall kink modes in all-dielectric photonic crystals. Physical     Review A103(4), p.L041502, 2021. 

[11]   Li, F., Chen, H., Zhou, Y., You, J. W.,     Panoiu, N.C., Zhou, P. and Deng, L., Generation and Focusing   of Orbital   Angular Momentum Based on Polarized Reflect array at   Microwave   Frequency. IEEE Transactions on Microwave   Theory and Techniques69(3),     pp.1829-1837,2020.

[12]   You, J.W. and Panoiu,   N.C., Tunable and dual-broadband   giant enhancement of second-harmonic and   third-harmonic   generation in an optimized graphene-insulator-graphene     metasurface. Physical Review B102(12), p.121403,   2020. 

[13]    Wang, Y., You,  J.W.,   Lan, Z. and Panoiu, N.C., Topological valley plasmon transport in     bilayer graphene metasurfaces for sensing applications. Optics     Letters45(11), pp.3151-3154, 2020. 

[14]    Lan, Z., You, J.W. and   Panoiu, N.C., Nonlinear one-way edge-mode interactions for frequency   mixing in   topological photonic crystals. Physical   Review B101(15), p.155422, 2020. 

[15]    You, J.W., Lan, Z., Bao, Q.     and Panoiu, N.C., Valley-Hall topological plasmons in a graphene   nanohole   plasmonic crystal waveguide. IEEE Journal of   Selected Topics in Quantum Electronics26(6), pp.1-8,   2020. 

[16]    You, J.W., Lan, Z. and Panoiu,     N.C., Four-wave mixing of topological edge plasmons in graphene     metasurfaces. Science advances6(13),     p.eaaz3910, 2020. 

[17]    You, J.W. and Panoiu,     N.C., Plasmon-induced nonlinearity enhancement and homogenization   of graphene   metasurfaces. Optics letters44(12),     pp.3030-3033, 2019. 

[18]   You, J.W. and Panoiu,   N.C.,  Analysis of the   interaction between classical and quantum   plasmons via FDTD–TDDFT   method. IEEE Journal on Multiscale and   Multiphysics   Computational Techniques4,     pp.111-118,2019.

[19]    You, J.W., Bongu, S.R., Bao,     Q. and Panoiu, N.C., Nonlinear optical properties and   applications of 2D   materials: theoretical and experimental   aspects. Nanophotonics8(1),     pp.63-97, 2018. 

[20]    You, J.W., Threlfall, E.,     Gallagher, D.F. and Panoiu, N.C., Computational analysis of   dispersive and   nonlinear 2D materials by using a GS-FDTD   method. JOSA B35(11),     pp.2754-2763, 2018. 

[21]   You, J.W. and Panoiu,   N.C., Polarization control using   passive and active crossed graphene   gratings. Optics   express26(2), pp.1882-1894,   2018. 

[22]   Manrique DZ, You, J.W., Deng H,   Ye F, Panoiu NC.   Quantum plasmon engineering with interacting   graphene nanoflakes. The   Journal of Physical   Chemistry C. 2017 Dec 14;121(49):27597-602.

[23]   You, J.W., Zhang JF, Gu WH,   Cui WZ, Cui TJ. Numerical   analysis of passive intermodulation arisen from   nonlinear   contacts in HPMW devices. IEEE Transactions on Electromagnetic     Compatibility. 2017 Oct 24;60(5):1470-80.

[24]    You, J.W., You J, Weismann M,     Panoiu NC. Double-resonant enhancement of third-harmonic   generation in   graphene nanostructures. Philosophical   Transactions of the Royal   Society A: Mathematical, Physical and Engineering   Sciences. 2017 Mar   28;375(2090):20160313.

[25]    You, J.W., Zhang JF, Jiang WX,     Ma HF, Cui WZ, Cui TJ. Accurate analysis of finite-volume lumped   elements in   metamaterial absorber design. IEEE   transactions on microwave theory and   techniques. 2016   Jun 10;64(7):1966-75.

[26]   You, J.W., Cui TJ. Efficient   approach to accurately analyze   wireless propagation and fading in time   domain. IEEE   Antennas and Wireless Propagation Letters. 2016 Feb     26;15:1767-70.

[27]    You, J.W., Wang HG, Zhang JF,     Li Y, Cui WZ, Cui TJ. Highly efficient and adaptive numerical   scheme to analyze multipactor in waveguide devices. IEEE   Transactions on Electron   Devices. 2015 Feb   17;62(4):1327-33.

[28]    You, J.W., Tan SR, Cui TJ.     Novel adaptive steady-state criteria for finite-difference   time-domain   method. IEEE Transactions on Microwave   Theory and Techniques. 2014   Nov 13;62(12):2849-58.

[29]    You, J.W., Wang HG, Zhang JF,     Tan SR, Cui TJ. Accurate numerical analysis of nonlinearities   caused by   multipactor in microwave devices. IEEE   Microwave and Wireless Components   Letters. 2014 Aug   6;24(11):730-2.

[30]   You, J.W., Wang HG, Zhang JF,   Tan SR, Cui TJ. Accurate   numerical method for multipactor analysis in   microwave   devices. IEEE Transactions on Electron Devices.     2014 Apr 3;61(5):1546-52.

[31]    You, J.W., Tan S, Zhang J, Cui     W, Cui T. A uniform time-domain finite integration technique   (TDFIT) using an   efficient extraction of conformal   information. IEEE Antennas and Propagation   Magazine.   2014 Jun 17;56(2):63-75.

[32]   You, J.W., Tan SR, Zhou XY, Yu   WM, Cui TJ. A new method to   analyze broadband antenna-radome interactions in     time-domain. IEEE transactions on antennas and   propagation. 2013 Nov   11;62(1):334-44.

[33]      You, J.W.,   Wang HG, Zhang JF,   Cui WZ, Cui TJ. The conformal TDFIT-PIC method   using a new extraction of   conformal information (ECI)   technique. IEEE Transactions on Plasma Science.     2013 Oct 4;41(11):3099-108.

近五年科研项目:

项目级别

项目名称

项目来源

项目经费

国家级

电磁多物理计算及智能计算

国家自然科学基金项目

300

国家级

拓扑保护的可编程电磁超表面及其智能调控

国家自然科学基金项目

30

国家级

XXX

JKW重点项目

420

国家级

经典与量子器件的无缝集成技术及计算模型

欧盟地平线计划ERC重大项目

300万欧元

国家级

光学与红外超构材料的电磁防护技术

英国工程与自然科学EPSRC项目

10万英镑

省部级

智能编码的拓扑光电器件研究

江苏省自然科学基金项目

20

省部级

可编程超表面和量子编码超表面

中央高校优秀青年团队

400

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