酷游ku111备用线路

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副教授及讲师

杨军*

2016-05-08 浏览次数:609


姓名

杨军

职称

副研究员

所属系

光电技术研究院

邮箱

junyang@hfut.edu.cn

电话


个人简历

杨军,男,博士,副研究员,硕士生导师。2005年毕业于中国科学技术大学物理系,获理学博士学位,2005年起任职于酷游ku111备用线路光电技术研究院,现任微波研究室主任、安徽省微波器件工程技术研究中心副主任,从事微波太赫兹器件及应用研究。

研究领域

1.基于液晶的微波太赫兹调控器件;

2.电磁超材料;

3.毫米波太赫兹相控阵天线。

开设课程

电磁兼容原理及生物效应

科研项目

主持装备预研领域基金、装备预研教育部支撑项目等科研项目4项,高校、科研院所及企业合作委托项目6项。

发表论文

1]J. Yang, X. Chu, H. Gao, P. Wang, G. Deng, Z. Yin, and H. Lu, “Fully Electronically Phase Modulation of Millimeter-Wave Via Comb Electrodes and Liquid Crystal,” IEEE Antennas and Wireless Propagation Letters, vol.20, no. 3, pp. 342-345,2021.

[2]Y. Li, L. Xu, J. Yang*, G. Deng, Z. Yin, X. Li, and X. Wang, “TM-polarized angle-dispersive metasurface for axisymmetric extension of beam steering angles,” Optics Express, vol. 29, no. 3, pp. 3211, 2021.

[3]G. Deng, K. Lv, H. Sun, J. Yang*, Z. Yin, B. Chi, and X. Li, “An ultra-broadband and optically transparent metamaterial absorber based on multilayer indium-tin-oxide structure,” Journal of Physics D: Applied Physics, vol. 54, no. 16, pp. 165301, 2021.

[4]A. Zheng, X. Xia, S. Gao, J. Yang*, H. Lu, G. Deng, and Z. Yin, “Dielectric properties of two high birefringence liquid crystal mixtures in the Sub-THz band,” Liquid Crystals, vol. 47, no. 1, pp. 83-88, 2020.

[5]J. Yang, P. Wang, S. Sun, Y. Li, Z. Yin, and G. Deng, “A Novel Electronically Controlled Two-Dimensional Terahertz Beam-Scanning Reflectarray Antenna Based on Liquid Crystals,” Frontiers in Physics, vol. 8, 2020.

[6]J. Yang, S. Gao, P. Wang, Z. P. Yin, H. B. Lu, W. E. Lai, Y. Li, and G. S. Deng, “Design and Experimental Verification of a Liquid Crystal-Based Terahertz Phase Shifter for Reconfigurable Reflectarrays,” Journal of Infrared Millimeter and Terahertz Waves, vol. 41, no. 6, pp. 665-674, Jun, 2020.

[7]J. Yang, H. B. Cao, H. Y. Fang, W. E. Lai, G. H. Shi, G. S. Deng, Z. P. Yin, F. Cai, and Y. Li, “Reflectance-tunable terahertz polarization reflector using indium tin oxide,” Optics Communications, vol. 460, Apr, 2020.

[8]S. Y. Sun, X. Yu, P. J. Wang, C. F. Wan, J. Yang*, Z. Yin, G. Deng, and H.-B. Lu, “Electronically Tunable Liquid-Crystal-Based F-Band Phase Shifter,” IEEE Access, vol. 8, pp. 151065-151071, 2020.

[9]G. S. Deng, T. X. Zhao, Z. P. Yin, and J. Yang*, “Graphene-based wavelength demultiplexing structure,” Journal of the Optical Society of America A, vol. 37, no. 6, pp. 903-907, Jun, 2020.

[10]G. S. Deng, K. Lv, H. X. Sun, Y. Hong, X. Y. Zhang, Z. P. Yin, and J. Yang*, “Wideband absorber based on conductive ink frequency selective surface with polarization insensitivity and wide-incident-angle stability,” Nanomaterials and Nanotechnology, vol. 10, Jun, 2020.

[11]G. Deng, T. Zhao, Z. Yin, Y. Li, and J. Yang*, “Comb-Shaped Graphene Nanoribbon Bandpass Filter,” J Nanosci Nanotechnol, vol. 20, no. 12, pp. 7577-7582, Dec 1, 2020.

[12]G. Deng, H. Sun, K. Lv, J. Yang*, Z. Yin, and B. Chi, “An efficient wideband cross-polarization converter manufactured by stacking metal/dielectric multilayers via 3D printing,” Journal of Applied Physics, vol. 127, no. 9, pp. 093103, 2020.

[13]G. Deng, K. Lv, H. Sun, Z. Yin, and J. Yang*, “Stereo Perfect Metamaterial Absorber Based on Standing Gear-Shaped Resonant Structure With Wide-Incident-Angle Stability,” Frontiers in Physics, vol. 8, 2020.

[14]G. Deng, K. Lv, H. Sun, J. Yang*, Z. Yin, Y. Li, B. Chi, and X. Li, “An Ultrathin, Triple-Band Metamaterial Absorber with Wide-Incident-Angle Stability for Conformal Applications at X and Ku Frequency Band,” Nanoscale Res Lett, vol. 15, no. 1, pp. 217, Nov 18, 2020.

[15]G. Deng, K. Lv, H. Sun, Y. Hong, X. Zhang, Z. Yin, Y. Li, and J. Yang*, “An ultra-wideband, polarization insensitive metamaterial absorber based on multiple resistive film layers with wide-incident-angle stability,” International Journal of Microwave and Wireless Technologies, pp. 1-9, 2020.

[16]J. Yang, P. Wang, T. Shi, S. Gao, H. Lu, Z. Yin, W. Lai, and G. Deng, “Electrically tunable liquid crystal terahertz device based on double-layer plasmonic metamaterial,” Optics Express, vol. 27, no. 19, pp. 27039, 2019.

[17]J. Yang, P. Wang, S. Gao, G. Deng, H. Lu, W. Lai, Z. Yin, Y. Li, and Y. Hu, “Tunable Terahertz Transmission Properties of Double-Layered Metal Hole-Loop Arrays Using Nematic Liquid Crystal,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 40, no. 3, pp. 276-287, March 01, 2019.

[18]J. Yang, K. Cai, G. Deng, Z. Yin, J. Ruan, F. Cai, and Y. Fang, “A staggered double-vane slow-wave structure with double sheet electron beams for 340GHz traveling wave tube,Journal of Electromagnetic Waves and Applications, vol. 33, no. 12, pp. 1632-1643, 2019.

[19]J. Yang, T. Xia, S. Jing, G. Deng, H. Lu, Y. Fang, and Z. Yin, “Electrically Tunable Reflective Terahertz Phase Shifter Based on Liquid Crystal,” Journal of Infrared Millimeter and Terahertz Waves, vol. 39, no. 5, pp. 439-446, May, 2018.

[20]J. Yang, C. Cai, Z. Yin, T. Xia, S. Jing, H. Lu, and G. Deng, “Reflective liquid crystal terahertz phase shifter with tuning range of over 360 degrees,” IET Microwaves Antennas & Propagation, vol. 12, no. 9, pp. 1466-1469, Jul 25, 2018.

Researchgate:https://www.researchgate.net/profile/Jun_Yang233

专著教材


申请专利

[1] 杨军; 高盛; 王鹏; 尹治平; 邓光晟; 陆红波; 基于液晶的太赫兹开槽移相单元及其构成的相控阵天线, ZL201810330867.1.

[2] 杨军; 高盛; 郑安东; 尹治平; 邓光晟; 陆红波; 赖伟恩; 一种太赫兹反射式移相单元及其内部液晶的快速调控方法, CN201811099293.8.

[3] 杨军; 蔡成刚; 叶明旭; 尹治平; 邓光晟; 陆红波; 阮久福; 一种液晶移相单元及其构成的相控天线, ZL201610615534.4.

[4] 杨军; 夏天雨; 杨阳; 尹治平; 邓光晟; 陆红波; 一种用于反射式可调移相器的液晶移相单元, ZL201710573041.3.

[5] 杨军; 蔡柯; 杨阳; 尹治平; 邓光晟; 阮久福; 一种具有双电子注通道的矩形双栅慢波结构, ZL201810851322.5.

[6] 杨军; 杨路路; 阮久福; 邱龙臻; 邓光晟; 一种深离子反应刻蚀结合辊压制备全金属微结构的方法, CN201210040416.7.

[7] 杨军; 李浩光; 邓光晟; 阮久福; 尹治平; 董必良; 杨路路; 蔡斐; 吕国强; 两级串联的太赫兹慢波结构, CN201310253161.7.

[8] 杨军; 邱龙臻; 李军英; 李鹏; 邓光晟; 尹治平; 阮久福; 一种多级降压收集极Cu电极表面采用石墨烯处理的方法, CN201410735289.1.

[9] 杨军; 李浩光; 李娇

; 阮久福; 邓光晟; 尹治平; 吕国强; 蔡斐; 一种多带状电子注通道的梳形慢波结构, CN201310016163.4.

[10] 杨军; 董必良; 吴明在; 邓光晟; 阮久福; 一种以Cu为多级降压收集极的收集极表面处理方法,  CN201210034523.9.

获奖成果




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