[1] LI Bo-xun, LI Hong-jian, ZENG Li-li, et al. Tunable filter and optical buffer based on dual plasmonic ring resonstors［J］. Journal of Modern Optics, 2015, 62 (3): 186-194.

[2] NEUTENS P, LAGAE L, BORGHS G, et al. Plasmon filters and resonators in metal-insulator-metal waveguides［J］. Optics Express, 2012, 20 (4): 34080-3423.

[3] CHANG Chia-ming, SOLGAARD O. Fano resonances in integrated silicon Bragg reflectors for sensing applications［J］.Optics Express, 2013, 21 (22): 27209-27218

[4] HAJEBIFARD A, BERINI P. Fano resonances in plasmonic heptamer nano-hole arrays［J］. Optics Express, 2017, 25(16): 18566-18580.

[5] YANG Bao-jia, ZHOU Yong-jin.Wavelength filtering and demultiplexing devices based on ultrathin corrugated MIM waveguides［J］. Journal of Modern Optics. 2016, 63 (9): 874-880.

[6] AZAR MTH, ZAVVARI M, ARASHMEHR A, et al. Design of a high performance metal-insulator-metal plasmonic demultiplexer［J］. Nanophotonics, 2017, 11(2): 026002.

[7] WANG Guo-xin, LU Hua, LIU Xue-ming, et al. Tunable multi-channel wavelength demultiplexer based on MIM plasmonic nanodisk resonators at telecommunication regime［J］. Optics Express, 2011, 19(4): 3513-3518.

[8] CHEN Zhao, YU Li, WANG Lu-lu, et al. High-resolution compact plasmonic wavelength demultiplexers based on cascading square resonators［J］. Chinese Physics Letters, 2013, 30(5): 054212.

[9] ZHANG Zhao, SHI Feng-hua,CHEN Yi-hang. Tunable multichannel plasmonic filter based on coupling-induced mode splitting［J］. Plasmonics, 2015, 10(1): 139-144.

[10] YUN Bin-feng, HU Guo-hua, CUI Yi-ping. Resonant mode analysis of the nanoscale surface plasmon polariton waveguide filter with rectangle cavity［J］. Plasmonics, 2013, 8(2): 267-275.

[11] SONG Ci, QU Shi-nian, WANG Ji-cheng, et al. Plasmonic tunable filter based on trapezoid resonator waveguide［J］. Journal of Modern Optics, 2015, 62(17): 1400-1404.

[12] WANG Zhi-shuang, ZHANG Guan-mao, LIU Hai-rui,et al. Design of the aperture coupled multi-functional asymmetric semi-circular cavity filter based on surface plasmon polaritons［J］. Acta Photonica Sinica, 2018, 47(4): 0423003.

[13] YUN Bin-feng, HU Guo-hua, CUI Yi-ping. Systematical research on the plasmon-induced transparency in coupled plasmonic resonators［J］. Optics Communications, 2013, 305(3): 17-22.

[14] YUN Bin-feng, HU Guo-hua, CUI Yi-ping. Theoretical analysis of a nanoscale plasmonic filter based on a rectangular metal-insulator-metal waveguide［J］. Journal of Physics D Applied Physics, 2012, 43(38): 385102.

[15] ZHAN Shi-ping, LI Hong-jian, CAO Guang-tao, et al. Theoretical analysis and applications on nano-block loaded rectangular ring［J］. Journal of the Optical Society of America A, 2014, 31(10): 2263-2267.

[16] SETAYESH A, MIRNAZIRY S R, ABRISHAMIAN M S. Numerical investigation of tunable band-pass\\band-stop plasmonic filters with hollow-core circular ring resonator［J］. Optical Society of Korea, 2011, 15(1): 82-89.

[17] MIRNAZIRY S R, WOLFF C, STEEL M J, et al. Lasing in ring resonators by stimulated Brillouin scattering in the presence of nonlinear loss［J］. Optics Express, 2017, 25(20): 23619-23633.

[18] ZHENG Gai-ge, SU Wei, CHEN Yun-yun, et al. Band-stop filters based on a coupled circular ring meter-insulator-mental resonator containing nonlinear material［J］. Optics, 2012, 14(5): 651-658.

[19] YUN Bin-feng, ZHANG Ruo-hu, HU Guo-hua, et al. Ultra sharp Fano resonances induced by coupling between plasmonic stub and circular cavity resonators［J］. Plasmonics, 2016, 11(4): 1157-1162.

[20] LIU Xia, TIAN Jin-ping,YANG Rong-cao. Surface plasmon polariton based metal-insulator-metal filter including two face-to-face concentric semi-rings with different radii［J］. Journal of Optical Technology, 2017, 84(9): 588-592.

[21] YE Long-fang, ZHANG Wei, OFORI-OKAI B K, et al. Super subwavelength guiding and rejecting of terahertz spoof SPPs enabled by planar plasmonic waveguides and notch filters based on spiral-shaped units［J］. Journal of Lightwave Technology, 2018, 36(20): 4988-4994.

[22] ZAVVARI M, AZAR M T H, ARASHMEHR A. Tunable band-stop plasmonic filter based on square ring resonators in a metal-insulator-metal structure［J］. Journal of Modern Optics, 2017, 64(20): 2221-2227.

[23] HAN Zhang-hua.Ultra compact plasmonic racetrack resonators in metal-insulator-metal waveguides［J］. Photonics and Nanostructures-Fundamentals and Applications, 2010, 8(3): 172-176.

[24] GUO Ying-hua, YAN Lian-shan, PAN Wei,et al. Characteristics of plasmonic filters with a notch located along rectangular resonators［J］. Plasmonics, 2013, 8(2): 167-171.

[25] CAO Guang-tao, LI Hong-jian, DENG Yan, et al. Systematic theoretical analysis of selective-mode plasmonic filter based on aperture-side-coupled slot cavity ［J］. Plasmonics, 2014, 9(5): 1163-1169.

[26] PENG Xiao, LI Hong-jian,WU Cai-ni, et al. Research on transmission characteristics of aperture-coupled square-ring resonator based filter［J］. Optics Commications, 2013, 294(5): 368-371.

[27] ZHU Jia-hu, WANG Qi-jie, HUANG Xu-guang,et al. A simple nanometeric plasmonic narrow-band filter structure based on metal-insulator-metal waveguide［J］. IEEE Transactions on Nanotechnology, 2011, 10(6): 1371-1376.

[28] SHI Song-song, WEI Zhong-chao, LU Zhi-yang,et al. Enhanced plasmonic band-pass filter with symmetric dual side-coupled nanodisk resonators［J］. Journal of Applied Physics, 2015, 118(14): 143103.