[1] Q. Lin, X. Lu, S. Wang. Theoretical analyses of high intensity super diffraction limitting new beam[J]. Optik, 1996, 101(4)

[2] M. Born, E. Wolf. Principles Optics[M]. 7th (expanded), Cambridge: Cambridge University Psess, Chap.8 and Chap.10

[3] C. J. R. Sheppard. The use of lenses with annular aperture in scanning optical microscopy[J]. Optik, 1977, 48(3): 329～334

[4] C. J. R. Sheppard, T. Wilson. Multiple traversing of the object in the scanning microscope[J]. Opt. Acta, 1980, 27(5): 611～624

[5] Tasso R. M. Sales, G. M. Morris. In Joint International Symposium on Optical Memory and Optical Data Storage[R]. OSA Technicol Digest Series, 1996, 12: 290～292

[6] Tasso R. M. Sales, G. M. Morris. Fundamental limits of optical superresolution[J]. Opt. Lett., 1997, 22(9): 582～584

[7] A. B. Marchant. Optical Recording: A Technical Overview[M]. Addison-Wesley, Reading, Mass., 1990. Chp.5, 101

[8] T. Wilson. Confocal Microscopy[M]. London: Academic, 1990. Chap.5, 171

[10] Haitao Liu, Yingbai Yan, Qiaofeng Tan et al.. Theories for the design of diffractive superresolution elements and limits of optical supreresolution[J]. J. Opt. Soc. Am. (A),2002,19(11):2185～2193

[11] Jia Jia, Changhe Zhou, Liren, Liu. Superresolution technology for reduction of the far-field diffraction spot size in the laser free-space communication system[J]. Opt. Commun., 2003, 228: 271～278