[1] R Dorn, S Quabis, G Leuchs. Sharper focus for a radially polarized light beam[J]. Phys Rev Lett, 2003, 91(23): 233901.

[2] Xia Kegui, Li Jianlang. Recent development in radially polarized solid-state laser with composite laser crystal[J]. Laser & Optoelectronics Progress, 2013, 50(8): 080015.

[3] Guo Ling, Li Jinsong. Phase pupil filter with cosine function for sharper focus of radially polarized beam[J]. Laser & Optoelectronics Progress, 2012, 49(12): 121001.

[4] Chen Huifang, Liu Tao, Zhang Zaixuan. Sharper focus of radially polarized beam with a continuous phase filter[J].Chinese J Lasers, 2012, 39(6): 0616001.

[5] W C Kim, N C Park, Y J Yoon, et al.. Investigation of near- field imaging characteristics of radial polarization for application to optical data storage[J]. Opt Rev, 2007, 14(4): 236-242.

[6] W T Tang, E Y S Yew, C J R Sheppard. Polarization conversion in confocal microscopy with radially polarized illumination[J]. Opt Lett, 2009, 34(14): 2147-2149.

[7] K S Youngworth, T G Brown. Focusing of high numerical aperture cylindrical- vector beams[J]. Opt Express, 2000, 7(2): 77-87.

[8] Ren Guangsen, Wu Wuming, Ning Yu, et al.. Tight focusing of a radially polarized coherent beams array[J]. Chinese J Lasers, 2014, 41(1): 0102003.

[9] Cheng Kan, Tan Qiaofeng, Zhou Zhehai, et al.. Design of three- dimensional superresolution diffractive optical elements for radially polarized beam[J]. Acta Optica Sinica, 2010, 30(11): 3295-3299.

[10] Y Kozawa, S Sato. Generation of a radially polarized laser beam by use of a conical Brewster prism[J]. Opt Lett, 2005, 30(22): 3063-3065.

[11] C Varin, M Piche. Acceleration of ultra- relativistic electrons using high- intensity TM01 laser beams[J]. Appl Phys B,2002, 74(1): s83-s88.

[12] Y I Salamin. Acceleration in vacuum of bare nuclei by tightly focused radially polarized laser light[J]. Opt Lett, 2007, 32(23): 3462-3464.

[13] T Kuga, Y Torii, N Shiokawa, et al.. Novel optical trap of atoms with a doughnut beam[J]. Phys Rev Lett, 1997, 78(25):4713-4717.

[14] V G Niziev, A V Nesterov. Influence of beam polarization on laser cutting efficiency[J]. J Phys D, 1999, 32(13): 1455-1461.

[15] Tian Bo, Pu Jixiong. Trapping two types of particles using a partially coherent radially polarized doughnut beam[J].Chinese J Lasers, 2011, 38(s1): s102006.

[16] J Durnin. Diffraction-free beams[J]. Phys Rev Lett, 1987, 58(15): 1499-1501.

[17] Y Lin, W Seka, J H Eberly, et al.. Experimental investigation of Bessel beam characteristics[J]. Appl Opt, 1992, 31(15):2708-2713.

[18] A J Cox, J D Anna. Constant-axial-intensity non-diffracting beam[J]. Opt Lett, 1992, 17(4): 232-234.

[19] Gao Zenghui, Lü Baida. Propagation of nonparaxial Bessel- Gaussian beams in free space[J]. Acta Photonica Sinica,2005, 34(11): 1732-1735.

[20] A Ortiz-ambriz, S Lopez-aguayo, Y V Kartashoy, et al.. Generation of arbitrary complex quasi-non-diffracting optical patterns[J]. Opt Express, 2013, 21(19): 22221-22231.

[21] Sun Shunhong, Lin Huichuan, Cui Shengwei, et al.. Generation and propagation characteristics of the radially polarized non-diffracting beam[J]. Scientia Sinica Physica, Mechanica & Astronomica, 2012, 42(10): 1022-1028.

[22] T Tanaka, S Yamamoto. Comparison of aberration between axicon and lens[J]. Opt Commun, 2000, 184(1): 113-118.

[23] P Fischer, C Brown, J Morris. White light propagation invariant beams[J]. Opt Express, 2005, 13(17): 6657-6666.

[24] P Fischer, H Little, R L Smith. Wavelength dependent propagation and reconstruction of white light Bessel beams[J]. J Opt A: Pure Appl Opt, 2006, 8(5): 447-482.

[25] Jiang Xinguang, Wu Fengtie, Liu Bin. Modification of aberration nondiffraction beams in manufacture error of elliptical axicon[J]. Chinese J Lasers, 2007, 34(11): 1538-1542.

[26] M Born, E Wolf. Principles of Optics[M]. Yang Jiasun, Transl. Beijing: Publishing House of Electronics Industry, 2005.197. 744.