[ 1 ] Ebbesen TW, Lezec H J, GhaemiH F, et al. Extraordinary op tical transmission through sub2wavelength hole arrays[ J ]. Nature, 1998, 391: 667 - 669.
[ 2 ] Ye Y H, Zhang J Y. Middle2infrared transmission enhancement through periodically perforated metal films [ J ]. Appl PhysLett, 2004, 84 (16) : 2 977-2 979.
[ 3 ] BarnesW L, Dereux A, Ebbesen TW. Surface p lasmon subwavelength op t [ J ]. Nature, 2003, 424: 8242830.
[ 4 ] Ye Y H, Zhang J Y. Enhanced light transmission through cascaded metal films perforated with periodic hole arrays[ J ]. Opt Lett, 2005, 30 (12) : 1 521-1 523.
[ 5 ] Keller F, HunterM S, Robinson D L. Structural features of oxide coatings on aluminium [ J ]. J Electrochem Soc, 1953,100 (9) : 411-416.
[ 6 ] Masuda H, Fukuda K. Ordered metal nanohole arraysmade by a two2step rep lication of honeycomb structures of anodic alumina[ J ]. Science, 1995, 268 (9) : 1 466-1 468.
[ 7 ] Raether H. Surface Plasmons on Smooth and Rough Surfaces and on Gratings[M ]. Berlin: Sp ringer, 1988.
[ 8 ] Kretschmann E, Raether Radiative H. Decay of non2radiative surface p lasmons excited by light[ J ]. Z Naturforsch, 1968,23A: 2 135-2 136.
[ 9 ] van derMolen KL, Segerink F B, van HulstN F, et al. Influence of hole size on the extraordinary transmission through subwavelength hole arrays[ J ]. App l Phys Lett, 2004, 85 (19) : 4 316-4 318.
[ 10 ] FanW, Zhang S, Minhas B K, et al. Enhanced infrared transmission through subwavelength coaxial metallic arrays[ J ].Phys Rev Lett, 2005, 94, 033902-1-033902-4.
[ 11 ] Matteo J A, Fromm D P, Yue Y, et al. Spectral analysis of strongly enhanced visible light transmission through single C-shaped nanoapertures[ J ]. App l Phys Lett, 2004, 85 (4) : 648-650.