[1] [1] Zhang F， Yu H， Fang J， et al. Efficient generation and tight focusing of radially polarized beam from linearly polarized beam with all-dielectric metasurface［J］. Optics Express， 2016， 24(6)：6656-6664.

[2] [2] Chang C C， Chen X D， Pu J X. High-energynan-osecond radially polarized beamoutputfrom Nd∶YAG amplifiers ［J］. Optical Review， 2017， 24 (2)： 188-192.

[3] [3] Ye F， Zou J， Deng D. The effect of the spin angular momentum on the tight‐focusing vortex hollow Gaussian beams［J］. Annalen der Physik， 2020， 532(4)： 1900548.

[4] [4] Nye J F， Berry M V. Dislocations in wave trains［J］. Proceedings of the Royal Society A： Mathematical， Physical and Engineering Sciences， 1974.

[5] [5] Jeffries G D M， Edgar J S， Zhao Y， et al. Using polarization-shaped optical vortex traps for single-cell nanosurgery［J］. Nano Letters， 2007， 7(2)： 415-420.

[6] [6] Tao S H， Yuan X C， Lin J， et al. Fractional optical vortex beam induced rotation of particles［J］. Optics Express， 2005， 13(20)：7726-0.

[7] [7] Willig K I， Keller J， Bossi M， et al. STED microscopy resolves nanoparticle assemblies［J］. New Journal of Physics， 2006， 8(6)：106.

[8] [8] Zhan Q. Properties of circularly polarized vortex beams［J］. Optics Letters， 2006， 31(7)： 867-869.

[9] [9] Li M， Yan S， Yao B，et al. Spinning and orbiting motion of particles in vortexbeams with circular or radial polarizations［J］. Optics Express， 2016， 24(18)： 20604-20612.

[10] [10] Zhongsheng M， Zhidong B， Jinjian L， et al. Focus shaping by tailoring arbitrary hybrid polarization states that have a combination of orthogonal linear polarization bases［J］. Applied Optics， 2018， 57(12)： 3047.

[11] [11] Tidwell S C， Ford D H， Kimura W D. Generating radially polarized beams interferometrically［J］. Appl. Opt.， 1990， 29(15)： 2234-2239.

[12] [12] Martynas B， Mindaugas G， Peter G K. Polarization sensitive elements fabricated by femtosecond laser nanostructuring of glass［J］. Optical Materials Express， 2011， (1)： 783-795.

[13] [13] Youngworth K， Brown T. Focusing of high numerical aperture cylindrical-vector beams［J］. Optics Express， 2000， 7(2)： 77-87.

[14] [14] Richards B， Wolf E. Electromagnetic diffraction in optical systems. II. Structure of the image field in an aplanatic system［J］. Proceedings A， 1959， 253(1274)： 358-379.

[15] [15] Nie Z， Shi G， Li D， et al. Tight focusing of a radially polarized Laguerre-Bessel-Gaussian beam and its application to manipulation of two types of particles［J］. Physics Letters A， 2015， 379(9)： 857-863.

[17] [17] Fürbach A， Peng X， Turi L， Krausz F. Compact high-energy picosecond laser for micromachiningapplications［J］. Applied Physics B (Lasers and Optics)， 2004， 78(3-4)： 261-264.