[1] LEZEC H J, DEGIRON A, DEVAUX E, et al. Beaming light from a subwavelength aperture［J］. Science, 2002, 297: 820-822.

[2] MARTIN-MORENO L, GARCIAL-VIDAL F J, LEZEC H J, et al. Theory of highly directional emission from a single subwavelength aperture surrounded by surface corrugations［J］. Phys Rev Lett, 2003, 90(16): 167401.

[3] EBBESEN T W, LEZEC H J, GHAEMI H F, et al. Extrardinary optical transmission through sub-wavelength hole arrays［J］. Nature (London), 1998, 391: 667-669.

[4] GARCIAL-VIDAL F J, LEZEC H J, EBBESEn T W, et al. Multiple paths to enhance optical transmission through a single subwavelength slit［J］. Phys Rev Lett, 2003, 90(21): 3901-3904.

[5] HOU B, MEI J, KE M Z, et al. Tuning fabry-perot resonances via diffraction evanescent waves［J］. Phys Rev B, 2007, 76(5): 4303-4308.

[6] ZHOU Y S, GU B Y, WANG H Y, et al. Multi-re ection process of extraordinary optical transmission in a single subwavelength metal slit［J］. Eur Phys L, 2009, 85: 24005.

[7] ZHOU L，YU X Q, ZHUY Y. Propagation and dual-localization of surface plasmon polaritons in a quasiperiodic metal heterowaveguide［J］. Appl Phy Lett, 2006, 89(5): 1901-1903.

[8] ZHANG Z Y, HUANG P, GUO X W, et al. Multiple wavelength-channels in SPP waveguides for optical communication［J］. Chin Phys Lett, 2008, 25(3): 996-998.

[9] HOSSEINI A, NEJATI H, AND MASSOUD Y. Modeling and design methodology for metal-insulator-metal plasmonic Bragg reflectors［J］. Opt Express, 2008, 16(3): 1475-1480.

[10] LIU J Q, WANG L L, HE M D, et al. A wide bandgap plasmonic Bragg reflector［J］. Opt Express, 2008, 16(7): 4888-4894.

[11] LIU J L, FANG G Y, ZHAO H F, et al. Surface plasmon reflector based on serial stub structure［J］. Opt Express, 2009, 17(22): 20134-20139.

[12] LIN X S, AND HUANG X G. Numerical modeling of a teeth-shaped nanoplasmonic waveguide filter［J］. JOSA B, 2009, 26(7): 1263-1268.

[13] TAO J, HUANG X G, LIN X S, et al. A narrow-band subwavelength plasmonic waveguide filter with asymmetrical multiple-teeth-shaped structure［J］. Opt Express, 2009, 17(16): 13989-13994.

[14] CAI W S, WHITE J S, MARK L. Brongersma, et al. Compact, High-speed and power-efficient electrooptic plasmonic modulators［J］. Nano Lett, 2009, 9(12): 4403-4411.

[15] MATSUZAKI Y, OKAMOTO T, HARAGUCHI M, et al. Characteristics of gap plasmon waveguide with stub structures［J］. Opt Express, 2008, 16(21): 314-325.

[16] WANG Y H, WANG Y Q, ZHANG Y, et al. Transmission through metallic array slits with perpendicular cuts［J］. Opt Express, 2009, 17(7): 5014-5022.

[17] Rsoft Design Group. A commercially available software［CP/DK］ http://www.rsoftdesign.com is used for the numerical simulations.

[18] JOHNSON P B, CHRISTY R W. Optical constants of the noble metals［J］. Phys Rev B, 1972, 6(12): 4370-4379.