陆卫兵

发布者:沈如达发布时间:2018-04-23浏览次数:588

陆卫兵老师

职称:教授

办公室:无线谷A4423房间

办公电话:025-52091160, 手机:   13813870177

Emailwblu@seu.edu.cn

学习经历:

1995/09-2002/02东北师范大学物理学院,本科、硕士,

2002/03-2005/03东南大学信息科学与工程学院,毫米波国重室,博士

工作经历:

2005/03-2006/03东南大学信息科学与工程学院,毫米波国重室讲师

2006/04-2008/03东南大学信息科学与工程学院,毫米波国重室破格副教授

2008/04-至今东南大学信息科学与工程学院,毫米波国重室破格教授/博导

2013/07-2013/09美国加州大学圣地亚哥分校华英访问学者

2016/04月-至今,东南大学信息科学与工程学院副院长

教授课程:

曾讲授电磁场理论与微波技术--本科

现讲授石墨烯电子学本科

电磁兼容-本科

研究方向:

1、基于石墨烯等新型电磁材料的射频器件与系统

2、电磁快速计算方法及其应用

3、电磁兼容及防护

获奖情况:

1、军队科技进步一等奖

2、中国电子学会自然科学三等将

3、江苏省优秀博士论文获得者

4、教育部新世纪人才入选者

5、江苏省六大高峰人才入选者

4、华英学者,GF专业组专家

6、东南大学青年教师授课竞赛一等奖,校优秀教学一等奖

论文著作:

代表性论文:

1.H.   Chen, Z. G. Liu, W. B. Lu*, A. Q.   Zhang, X. B. Li, J. Zhang, “Microwave Beam Reconfiguration Based on Graphene   Ribbon”, IEEE Transactions on  Antennas   and Propagation,10.1109/TAP.2018.2860042, 2018, to be published.

2.H. Chen,   W. B. Lu*, Z. G.   Liu, J. Zhang, A. Q. Zhang, B. Wu,”Experimental Demonstration of Microwave   Absorber Using Large-Area Multilayer Graphene-Based Frequency Selective   Surface”,IEEE Transactions on Microwave Theory and Techniques, vol. 66, no.   8, pp. 3807-3816, 2018.

3.A.   Q. Zhang, W. B. Lu*, Z. G. Liu,“Dynamically   Tunable Substrate-Integrated Waveguide Attenuator Using Graphene,”IEEE   Transaction on Microwave Theory and Techniquesvol. 66, no. 6,pp. 3081-3089,   2018.

4.A.   Q. Zhang, W. B. Lu*, Z. G. Liu,“Graphene-based   dynamically tunable attenuator on a half-mode substrate integrated waveguide,”Applied   Physics Letters,  vol.112,   161903, 2018.

5.B.   H. Huang, W. B. Lu*, Z. G. Liu,“Low-energy   high-speed plasmonic enhanced modulator using graphene,” Optics Express, vol.26,   no.6, 7358, 2018

6.B. Wu,  Y. Hu, Y. T. Zhao, W. B. Lu, “Large angle   beam steering THz antenna using active frequency selective surface based on   hybrid graphene-gold structure,” Optics Express, vol. 26,   no. 12, 15353, 2018.

7.H.   Chen, W. B. Lu,   Z. G. Liu, J. Zhang and B. H. Huang,”Efficient manipulation of spoof surfae   palsmon polaritions based on rotated complementary H-Shaped resonator   metasurface,” IEEE Transactions on Antennas and Propagation, vol. 65, no. 12,   pp. 7383-7388, 2017

8.Z.   G. Liu, W. B. Lu,   W. Yang, Enhanced bandwidth of highly directive emission Fabry-Perot   resonator antenna with tapered effective near-zero index using   metasurface, Scientific Reports, 7:11455   2017

9.Z.   G. Liu, W. B. Lu,   Low-Profile Design of Broadband High Gain Circularly Polarized   Fabry-Perot Resonator Antenna and its Array with Linearly Polarized   Feed, IEEE Access, vol. 5, pp. 7164-7172, 2017

10.Z.   G. Liu, W. B. Lu,   Broadband Design of Circularly Polarized High Gain Fabry-Perot   Resonator Antenna with Simple Array Thinning Technique, Microwave and   optical technology lett., vol. 59, no. 12, pp.3171-3176, 2017.

11.W.   B. Lu,   J. L. Liu, J. Zhang and Z. G. Liu,   Polarization-independent transparency window induced by complementary   graphene metasurfaces”,   Journal of Physics D: Applied Physics, vol. 50, no. 1, pp. 015106, 2017.

12. B. H. Huang, W. B. Lu*, X. B. Li, J. Wang   and Z. G. Liu, “Waveguide-coupled hybrid plasmonic modulator based on   grapheme,” Applied Optics, vol. 55, no. 21,pp.5598, 2016

13.J.   Wang, W. B. Lu*, X. B. Li, and J. L. Liu, “Terahertz wavefront control based   on graphene manipulated Fabry-Pérotcavities,”IEEE Photonics Technology   Letters, vol. 28, no. 29, pp. 971-974, 2016.

14.J.   Wang, W. B. Lu*, J. L. Liu, and T. J. Cui, “Digital metamaterials using   graphene,” Plasmonics, vol. 10, no. 5, pp. 1141-1145, 2015.

15.J.   Wang, W. B. Lu*, X. B. Li, Z. H. Ni, and T. Qiu, “Grapheneplasmon guided   along a nanoribbon coupled with a nanoring,” Journal of Physics D: Applied   Physics, vol. 47, no. 13, pp. 135106, 2014.

16.J.   Hu, W. B. Lu*, and J. Wang, “Highly confined and tunable plasmonic waveguide   ring resonator based on grapheme nanoribbons,” Europhysics Letters, vol. 106,   no. 4, pp. 48002, 2014.

17.J.   Wang, W. B. Lu*, X. B. Li, X. F. Gu, and Z. G. Dong, “Plasmonic metamaterial   based on the complementary split ring resonators using graphene,” Journal of   Physics D: Applied Physics, vol. 47, no. 32, pp. 325102, 2014.

18.W.   B. Lu*, W. Zhu, H. J. Xu, Z. H. Ni, Z. G. Dong, and T. J. Cui, “Flexible   transformation plasmonics using graphene,” Optics Express, vol. 21, no. 9,   pp. 10475-10482, 2013.

19.X.   G. Luo, T. Qiu*, W. B. Lu*, and Z. H. Ni*, “Plasmons in graphene: Recent   progress and applications,” Materials Science and Engineering: R: Reports,   vol. 74, no. 11, pp. 351-376, 2013.

20.H.   J. Xu, W. B. Lu*, W. Zhu, Z. G. Dong, and T. J. Cui, “Efficient manipulation   of surface plasmon polariton waves in graphene,” Applied Physics Letters,   vol. 100, no. 24, pp. 243110, 2012.

21.H.   J. Xu, W. B. Lu*, Y. Jiang, and Z. G. Dong, “Beam-scanning planar lens based   on graphene,” Applied Physics Letters, vol. 100, no. 5, pp. 051903, 2012.

22.Y.   Jiang, W. B. Lu*, H. J. Xu, Z. G. Dong, and T. J. Cui, “A planar   electromagnetic “black hole”    based   on graphene,” Physics Letters A, vol. 376, no. 17, pp. 1468-1471, 2012.

23.W.   B. Lu*Z.   F. JiZ.   G. DongX.   W. PingT.   J. Cui ,“Left   handed transmission properties of planar metamaterials based on complementary   double-ring resonators”,Journal   of Applied Physics108033717)。2010.

24.W.   B. Lu, T. J. Cui* , Efficient   method for full-wave analysis of large-scale finite-sized periodic structures”,Journal   of Electromagnetic Waves and Applications2114):2157-21682007.

25.W.   B. LuT.   J. Cui* H.   Zhao,“Acceleration   of fast multipole method for large-scale periodic structures with finite   sizes using sub-entire-domain basis functions”,IEEE   Transactions on Antennas and Propagation552):414-4212007.

26.W.   B. LuT.   J. Cui* X.   X. YinZ.   G. QianW.   Hong,“Fast   algorithms for large-scale periodic structures using subentire domain basis   functions”,IEEE   Transactions on Antennas and Propagation533):1154-11622005.

27.W.   B. LuT.   J. Cui* Z.   G. QianX.   X. YinW.   Hong,“Accurate   analysis of large-scale periodic structures using an efficient   sub-entire-domain basis function method”,IEEE   Transactions on Antennas and Propagation523078-30852004

科研项目:(目前主持)

项目名称

项目类别

项目时间

工作类别

项目金额

可重构石墨烯超表面对电磁波相位动态调控研究

国家自然科学基金项目

2017.03-2020.12

应用基础研究

60

XXX研究

GF项目

2016.01-2020.12

十三五预研

165

XXX研究

GF项目

2017.12-2020.12

十三五预研

300

XXX研究

GF项目

2017.12-2020.12

十三五预研

100

XXX 研究

GF项目

2017.12-2018.10

创新研究

40

船用电缆电磁兼容研究

常州船用电缆厂

2016.1-2018.12

应用研究

50

专利:

专利号

专利名称

专利类型

ZL201210005521.7

基于石墨烯的表面等离子体极化波分束器

  

发明专利授权

ZL201210099490.6

表面等离子体极化波在石墨烯上的传播调控方法及装置

发明专利授权

  

软件著作权登记号(2016SR260302

东南大学电磁散射计算软件(SEU_EMSC

软件著作权

软件著作权登记号(2016SR261020

东南大学电磁辐射计算软件(SEU_EMRC

软件著作权