banner.jpg

肖中银 研究员

办公室:

上海大学宝山校区东区翔英楼T217

通信地址:

上大路99号上海大学通信与信息工程学院

邮政编码:

200444

电话:

电子邮件:

zhyxiao@staff.shu.edu.cn

English Version

个人主页:

https://scie.shu.edu.cn/Prof/zhyxiao.htm

 

【学术经历】

肖中银 博士、研究员、博士生导师。1988年毕业于安徽师范大学物理系获学士学位,2002年毕业于上海大学物理系,获硕士学位,2005年毕业于上海大学通信与信息工程学院电磁场与微波技术专业,获工学博士学位。主持和参与国家自然科学基金、国防科工委和上海市自然科学基金等多项科研项目,已发表学术论文100余篇,其中SCI收录50余篇,1篇论文被ESI数据库收录为高被引论文。代表性论文发表在Optics ExpressMaterial Letters, Applied Physics ExpressPlasmonicsIEEE Transactions on Nuclear ScienceProgress In Electromagnetics ResearchJournal of Applied PhysicsJournal of Optical Society of America BOptics CommunicationsElectronics Letters等国际著名期刊上。申请发明专利6,已授权3项。

 

【研究领域】

微波与毫米波电路;超材料与太赫兹器件;平面波导与传感技术

 

【讲授课程】

本科生课程《电磁场理论基础》;《微波与无线通信》

研究生课程《微波与毫米波新技术》;《微波网络》;《电子科学与技术进展》

 

【主要论文】

1.      Xiao Zhongyin, Zou Huanling, Xu Kaikai, Tang Jingyao. An implemented method of asymmetric transmission for arbitrary polarization base in multi-layered chiral meta-surface. Journal of Magnetism and Magnetic Materials, 2018, 449: 278-285.

2.      Xiao Zhongyin,Tang Jingyao. Broadband, ultrathin and polarization-insensitive metamaterial absorber based on a new mixing material in infrared and visible regions. Materials Letters, 2017,192:21-24.

3.      Xiao Zhongyin, Zou Huanling, Zheng Xiaoxia, Ling Xinyan, Wang Lei. A tunable reflective polarization converter based on hybrid metamaterial. Optical and Quantum Electronics,2017, 49(12):401.

4.      Xu Kaikai, Xiao Zhongyin, Tang Jingyao. Linearly Polarized Converters for Reflected and Transmitted Waves Based on Double-Split Ring Resonator. Plasmonics, 2017, 12(6): 1869-1874.

5.      Tang Jingyao, Xiao Zhongyin, Xu Kaikai. Broadband Ultrathin Absorber and Sensing Application Based on Hybrid Materials in Infrared Region. Plasmonics, 2017, 12 (4): 1091-1098.

6.      Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Zihua Wang. Multi-band asymmetric transmission and 90° polarization rotator based on bi-layered meta-surface with F-shaped structure. Plasmonics, 2017,12(2):445-452.

7.      Xinyan Ling, Zhongyin Xiao, Xiaoxia Zheng, Jingyao Tang, and Kaikai Xu. Broadband and polarization-insensitive metamaterial absorber based on hybrid structures in the infrared region. Journal of Modern Optics, 2017,64(7):665-671.

8.      Zheng Xiaoxia,Xiao Zhongyin, Ling Xinyan. Broadband visible perfect absorber for sensor based on ultra-thin metamaterial. Journal of Materials Science-Materials in Electronics, 2017, 28(11):7739-7744.

9.      Ling Xinyan, Xiao Zhongyin, Zheng Xiaoxia. An ultra-broadband metamaterial absorber based on the hybrid materials in the visible region. Optical and Quantum Electronics.2017,49(7):248.

10.   Kaikai Xu, Zhongyin Xiao, Jingyao Tang, Dejun Liu, Xiaolong Ma, Zihua Wang. Dispersionless and giant optical activity in THz chiral metamaterials. Plasmonics, 2016, 11(5): 1257-1264

11.   Tang Jingyao, Xiao Zhongyin, Xu Kaikai, Xiaolong Ma, Zihua Wang. Polarization Controlled Metamaterial Absorber with Extremely Bandwidth and Wide Incidence Angle. Plasmonics, 2016,11(5):1393-1399.

12.   Kaikai Xu, Zhongyin Xiao, Jingyao Tang, Dejun Liu, Zihua Wang. Ultra-broad band and dual-band highly effecient polarization conversion based on the three-layered chiral structure. Physica E-Low-Dimensional Systems & Nano Structures, 2016, 81: 169-176

13.   Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Zihua Wang. Broadband asymmetric transmission and polarization conversion of a linearly polarized wave based on chiral metamaterial in terahertz region. Wave Motion, 2016, 66:1-9

14.   Xiaolong Ma, Zhongyin Xiao, Dejun Liu. Dual-band cross polarization converter in bi-layered complementary chiral metamaterial. Journal of Modern Optics, 2016, 63: 937-940.

15.   Xiaolong Ma, Zhongyin Xiao, Dejun Liu. Dispersionless optical activity based on novel windmill-shaped chiral metamaterial. Modern Physics Letters B, 2016, 30(4):1650033

16.   Kaikai Xu, Zhongyin Xiao, Jingyao Tang. Dual-band asymmetric transmission of both linearly and circularly polarized waves based on chiral meta-surface. Optical and Quantum Electronics, 2016, 48(8): 381

17.   Jingyao Tang, Zhongyin Xiao, Kaikai Xu, Xiaolong Ma, Dejun Liu and Zihua Wang. Cross polarization conversion based on a new chiral spiral slot structure in THz region. Optical and Quantum Electronics, 2016, 48(2):111.

18.   Jingyao Tang, Zhongyin Xiao, Kaikai Xu and Dejun Liu. A polarization insensitive and broadband metamaterial absorber based on three-dimensional structure, Optics Communications, 2016,372:64-70.

19.   Jingyao Tang, Zhongyin Xiao and Kaikai Xu. Ultra-thin metamaterial absorber with extremely bandwidth for solar cell and sensing applications in visible region, Optical Materials, 2016, 60: 142-147.

20.   Xinyan Ling, Zhongyin Xiao, Xiaoxia Zheng, Jingyao Tang, and Kaikai Xu. A three-dimensional ultra-broadband metamaterial absorber in terahertz region. Applied Physics A-Materials Science & Processing,2016,122(11):951

21.   Xinyan Ling, Zhongyin Xiao, Xiaoxia Zheng, Jingyao Tang, and Kaikai Xu. Ultra-broadband metamaterial absorber based on the structure of resistive films. Journal of Electromagnetic Waves and Applications. 2016,30(7): 2325-2333.

22.   Xiaoxia Zheng, Zhongyin Xiao, Xinyan Ling. Broadband and efficient reflective polarization converter based on a three-dimensional metamaterial. Optical and Quantum Electronics, 2016, 48(10): 461

23.   Jianxiang Wen, Renxiang Gong, Zhongyin Xiao, Wenyun Luo, Wenkai Wu,Yanhua Luo, Gangding Peng, Fufei Pang, Zhenyi Chen,Tingyun Wang. Effects of quenching, irradiation, and annealing processes on the radiation hardness of silica fiber cladding materials (I). Optical Fiber Technology,2016,30:95-99.

24.   Zhongyin Xiao, Dejun Liu, Xiaolong Ma, Zihua Wang. Multi-band transmissions of chiral metamaterials based on Fabry-Perot like resonators. Optics Express, 2015, 23(6): 7053-7061.

25.   Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Quanwen Ma, Xiaoxue Xu, Zihua Wang. Asymmetric transmission of chiral metamaterial slab with double L resonators. Optics Communications, 2015, 338: 359-365.

26.   Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Lei Wang, Kaikai Xu, Jingyao Tang, Zihua Wang. Dual-band asymmetric transmission of chiral metamaterial based on complementary U-shaped structure. Applied Physics A-Material Science & Processing, 2015, 118:787-791.

27.   Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Zihua Wang. Asymmetric transmission of linearly and circularly polarized waves in metamaterial due to symmetry-breaking. Applied Physics Express, 2015, 8: 052001.

28.   Dejun Liu, Zhongyin Xiao, Xiaolong Ma, Zihua Wang. Broadband asymmetric transmission and multi-band 90° polarization rotator of linearly polarized wave based on multi-layered metamaterial. Optics Communications, 2015, 354:272-276.

29.   Zhong Yin Xiao, Su Ping Li, Zi Hua Wang. Guided surface modes in a hollow slab waveguide with a left-handed material substrate or cover. Optik, 2013,124: 6622- 6626.

30.   Wenyun Luo, Zhongyin Xiao, Jianxiang Wen, Jianchong Yin, Zhenyi Chen, Zihua WangTingyun Wang. Mechanism of E' center induced by g ray radiation in silica optical fiber material. Nuclear Science and Techniques, 2013, 24 : 040206(1-4). 

31.   寇 鑫, 肖中银, 黄春艳, 李 好, 储君君. 基于频率变换的双通带腔体滤波器的研究. 电子与信息学报, 2012, 34(6):1489-1493.

32.   Zhongyin Xiao. Multimode broadband bandpass filter using one single square patch resonator. Microwave and Optical Technology Letters, 2011, 53(2):385-386.

33.   Zhong Yin Xiao, Shan Gao, De Chen Ma and Liang Liang Xiang. Design of a Wide Stopband Bandpass Filter with Source-load Coupling. Microwave Journal, 2011, 54(5): 182-186.

34.   D.-C. Ma, Z.-Y. Xiao, L.-L. Xiang, X.-H. Wu, C.-Y. Huang and X. Kou. Compact dual-band bandpass filter using folded SIR with two stubs for WLAN. Progress In Electromagnetics Research, 2011, 117: 357-364.

35.   Zhongyin Xiao, Wenyun Luo, Jianxiang Wen, Jianzhong Yin and Tingyun Wang. Defect Induced by Heated Treatment in Silica Fiber Material. Advanced Materials Research, 2011, 304: 160-164.

36.   Jianxiang Wen, Gang-Ding Peng, Wenyun Luo, Zhongyin Xiao, Zhenyi Chen,Tingyun Wang. Gamma irradiation effect on Rayleigh scattering in low water peak single-mode optical fibers. Optics Express, 2011, 19(23):23271-23278.

37.   Ting Y. Wang, Jian X. Wen, Wen Y. Luo, Zhong Y. Xiao, Zhen Y. Chen. Influences of irradiation on network microstructure of low water peak optical fiber material. Journal of Non-Crystalline Solids, 2010, 356:13321336.

38.   J. X. Wen, W. Y. Luo, Z. Y. Xiao, T. Y. Wang, Z. Y. Chen, and X. L. Zeng. Formation and conversion of defect centers in low water peak single mode optical fiber induced by gamma rays irradiation. Journal of Applied Physics, 2010,107, 044904 -5.

39.   Zhong Yin Xiao, Zi Hua Wang. A Novel Bandpass Filter Made of the Microstrip with Cantor Substrates. Journal of Infrared, Millimeter and Terahz Waves, 2009, 30(10): 1038-1043

40.   S. Gao, Z.-Y. Xiao and W.-F. Chen. Dual-band bandpass filter with source-load coupling. Electronics Letters, 2009, 45(17): 894-895

41.   Zi Hua Wang, Zhong Yin Xiao, and Wen Yun Luo. Surface modes in left-handed material slab waveguides. Journal of Optics A: Pure and Applied Optics, 2009, 11(1): 015101-05.

42.   Hong-Hong Hu, Zhong-Yin Xiao, Wen-Qing He, and Shan Gao. Novel compact ultra-wideband filter with wide stop-band. Microwave and Optical Technology Letters, 2009, 51(1): 53-55.

43.   Tingyun Wang, Zhongyin Xiao, and Wenyun Luo. Influences of Thermal Annealing Temperatures on Irradiation Induced E' Centers in Silica Glass. IEEE Transactions on Nuclear Science, 2008, 55(5): 2685-2688.

44.   肖中银, 王廷云, 罗文云. 高能粒子辐照二氧化硅玻璃E'色心形成机理研究. 物理学报, 2008, 57(4):2273-2277.

45.   He-Ming Xu, Zhong-Yin Xiao, and Hong-Hong Hu. Compact dual-band bandpass filter using stepped impedance resonators. Microwave and Optical Technology Letters, 2008, 50(5): 1292-1294.

46.   Zi Hua Wang, Zhong Yin Xiao. Guided modes in slab waveguides with a left handed material cover or substrate. Optics Communications, 2008, 281: 607-613.

47.   Zhong Yin Xiao, Zi Hua Wang. Broad stopband microstrip bandpass filter with metamaterial substrate of fractal cantor distribution. Journal of Electromagnetic Wave Theory and Application, 2008, 22: 715-722.

48.   肖中银, 罗文云, 王廷云. 高纯硅低能粒子辐照E'色心形成动力学研究. 物理学报, 2007, 56(5): 2731-2735.

49.   Zhong Yin Xiao, Zi Hua Wang. The transmission property of fractal photonic crystals. Optoelectronic Letters, 2007, 3(4): 44-47.

50.   Zhong Yin Xiao, Zi Hua Wang. Dispersion characteristics of asymmetric double negative material slab waveguides. Journal of the Optical Society of American B, 2006, 23(9): 1757-1760.

51.   Zhong Yin Xiao, Zi Hua Wang. Double periodic photonic crystal with metamaterial. International Journal of Infrared and Millimeter Waves2006, 27(3): 443-454.

52.   王子华, 张辉, 肖中银. 求解梯度光纤模场的近似里兹-伽略金方法. 光子学报, 2006, 35(7): 986-989.

53.   Zhong Yin Xiao, Zi Hua Wang. Super narrow bandpass filter using fractal Cantor structures. International Journal of Infrared and Millimeter Waves,2004, 25(9):1315.

54.   Zhong Yin Xiao, Zi Hua Wang. One dimensional chiral photonic band-gap structure analyzed by non-symmetric transmission line method. Optics Communications, 2004, 237(4-6): 229.

55.   Zhong Yin Xiao, Zi Hua Wang. Broad stopband characteristic of dielectric chiral photonic crystals. International Journal of Infrared and Millimeter Waves, 2004, 25(9):1309.  

56.   肖中银, 王子华. 多层双各向同性媒质中电磁波的传输特性. 电波科学学报, 2003, 18(6): 687-691.