[1] S. Shinada,F. Koyama,N. Nishiyama et al.. Fabricated of micro-aperture surface emitting laser for near field optical data storage[J]. Jpn. J. Appl. Phys. 1999,38:1327-1329

[2] J. Hashizume,S. Shinada,F. Koyama. Near-field optical probing using a microaperture GaInAs/GaAs suface emitting laser[J]. Jpn. J. Appl. Phys.,2002,41:700-702

[3] A. Krishnan. Evanescently coupled resonance in surface plasmon enhanced transmission[J]. Opt. Commun,. 2001,200(12):1-3

[4] A. Degiron,H. J. Lezec,W. L. Barnes et al.. Effects of hole depth on enhanced light transmission through subwavelength hole arrays[J]. Appl. Phys. Lett. 2002,81(23):4327-4329

[5] Zhang Zongsuo,Cheng Mutian,Liu Shaoding et al.. Scattering properties of periodic arrays of nanoholes in thin gold film[J]. Laser & Optoelectronics Progress,2008,45(8):54-58

[6] T. W. Ebbesen,H. J. Lezec,H. F. Ghaemi et al.. Extraordinary optical transmission through subwavelength hole arrays[J]. Nature,1998,391 (6668):667-669

[7] K. Goto,Y. J. Kim,T. Kirigaya et al.. Near-field evanescent wave enhancement with nanometer-sized metal grating and microlens array in parallel optical recording head[J]. Jpn. J. Appl. Phys.,2004,43:5814

[8] Gao Jianxia,Song Guofeng,Gan Qiaoqiang et al.. Fabrication and characteristics analysis of nano-aperture vertical-cavity surface-emitting laser[J]. Chinese J. Semiconductors,2007,28(2):265-268

[9] Gao Jianxia,Song Guofeng,Gan Qiaoqiang et al.. Surface plasmon modulated nano-aperture vertical-cavity surface-emitting laser[J]. Laser Phys. Lett. 2007,4(3):234-237

[10] Xiaolei Shi. Single Subwavelength Aperture for Near Field Applications[D]. California:Stanford University,2003. 56-60

[11] Fang Chen. A Study of Very-Small-Aperture Lasers for Near-field Recording[D]. Pittsburgh:Carnegie Mellon University,2003. 62-65