[1] FLEISCHMANN M, HENDRA P J , MCQUILLAN A J. Raman spectra of pyridine adsorbed at a silver electrode［J］. Chemical Physics.Letters, 1974, 26(2): 163-166.

[2] JEANMAIRE D L, van DUYNE R P. Surface raman spectroelectrochemistry: Part 1. Heterocyclic aromatic, and aliphatic amines adsorbed on the anodized silver electrode［J］. Journal of Electroanalytical Chemistry , 1977, 84(1): l-20.

[3] GERSTEN J L. The effect of surface roughness on surface enhanced Raman scattering［J］. Journal of Chemical Physics, 1980, 72(10): 5779-5780.

[4] ALVAREZ-PUEBLA R, CUI B, ALVAREZ-PUEBLA R. Nanoimprinted SERS-Active substrates with tunable surface plasmon resonances［J］. The Journal of Physical Chemistry C, 2007, 111(18): 6720-6723.

[5] LUO Y U, ALEXANDRE A, PENDRY J B. Electromagnetic contribution to surface-enhanced Raman scattering from rough metal surfaces:A transformation optics approach［J］. Physical Review B, 2011, 83(15): 155422.

[6] MEYER S A, le RU E C, ETCHEGOIN P G. Combining surface plasmon resonance(SPR) spectroscopy with Surface-Enhanced Raman Scattering(SERS) ［J］. Analytical Chemistry, 2011, 83(6): 2337-2344.

[7] SUMEET M, JEREMY J B, ANDREA E E, et al. Reproducible SERRS from structured gold surfaces［J］. Physical Chemistry Chemical Physics, 2007, 9(45): 6016-6020.

[8] MOSKOVIS M, TAY L L, YANG J, et al. SERS and the single molecule［J］.Tropics in Applied Physics, 2002, 82(03): 215-227.

[9] KNEIPP K, KNEIPP H, HENRIK G B. Single-Molecule SERS spectroscopy［J］.Topics in Applied Physics, 2006, 103: 261-278.

[10] XIAO Xiao, XIAO Zhi-gang, XU De-fu, et al. Surface plasmon polarritions lithography based on thick metallic slit arrays［J］.Acta Photonica Sinica, 2011, 40(9): 1381-1385.

[11] EBBESEN T W, LEZEE H J, GHAEMI H F, et al. Extraordinary optical transmission through sub-wavelength hole arrays［J］. Nature, 1998, 391(12): 667-669.

[12] CAI Lin, LI Guang-yuan, WANG Zhong-hua, et al. Interference and horizontal Fabry-Perot resonance on extraordinary transmission through a metallic nanoslit surrounded by grooves［J］.Optics Letters, 2010, 35(2): 127-130.

[13] TANG Wei-min, WANG Zheng-ling, JIANG Wen-fan. Optical propagation and interference in the sub-wavelength metallic waveguide［J］. Acta Photonica Sinica, 2013, 42(4): 386-391.

[14] KUSUNOK I, FUMINOR I. Propagation properties of guided waves in index-guided two-dimensional optical waveguides［J］. Applied Physics Letters, 2005, 86(21): 211101-211101.

[15] TAKAKURA Y. Optical resonance in a narrow slit in a thick metallic screen［J］. Physical Review Letters, 2001, 86(24): 5601-5603.

[16] LEZEC H J, THIO T. Diffracted evanescent wave model for enhanced and suppressed optical transmission through subwavelength hole arrays［J］.Optics Letters, 2004, 12(16): 3629-3651.

[17] GIUSEPPE T, SOREN R, ANTTI-PEKKA J, et al. Modified field enhancement and extinction by plasmonic nanowire dimmers due to nonlocal response［J］. Optics Express, 2012, 20(4): 4176-4188.

[18] CHEN Jun-xue. Optical properties and optical manipulation of coupled modes in micro/nano-metallic structures［D］. Hefei: University of Science and Technology of China, 2011: 32-59.

[19] ZHANG Jiang-tao, GU Zheng-tian, DENG Chuan-lu. Traditional approximately theory and thin film optical theory in SPR［J］. Acta Photonica Sinica, 2010, 39(7): 1216-1222.

[20] RUAN Zhi-chao, QIU Min. Enhanced transmission through periodic arrays of subwavelength holes:the role of localized waveguide resonances［J］. Physical Review Letter,2006, 96(23): 2339.

[21] DIONNE J A, SWEATLOCK L A, ATWATER H A. Plasmon slot waveguides:Towards chip-scale propagation with subwavelength-scale localization［J］. Physical Review B, 2006, 73(3): 4507-4516.