[1] Zhan Q. Cylindrical vector beams: from mathematical concepts to, applications[J]. Journal of Systems Science & Complexity, 2009, 27(5): 899-910.
[2] Dorn R, Quabis S, Leuchs G. Sharper focus for a radially polarized light beam[J]. Physical Review Letters, 2003, 91(23): 233901.
[3] Wichmann J, Hell S W. Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence microscopy[J]. Optics Letters, 1994, 19(11): 780.
[4] Zhan Q, Leger J R. Microellipsometer with radial symmetry.[J]. Applied Optics, 2002, 41(22): 4630-4637.
[5] Lou K, Qian S X, Ren Z C, et al. Femtosecond laser processing by using patterned vector optical fields[J]. Scientific Reports, 2013, 3(2): 2281.
[6] Volpe G, Petrov D. Generation of cylindrical vector beams with few-mode fibers excited by Laguerre-Gaussian beams[J]. Optics Communications, 2004, 237(1): 89-95.
[7] Roy S, Ushakova K, Van d B Q, et al. Radially polarized light for detection and nanolocalization of dielectric particles on a planar substrate[J]. Physical Review Letters, 2015, 114(10): 103903.
[8] Chen Y, Wang F, Liu L, et al. Generation and propagation of a partially coherent vector beam with special correlation functions[J]. Phys Rev A, 2014, 89(1): 013801.
[9] Pal S K, Ruchi, Senthilkumaran P. Polarization singularity index sign inversion by a half-wave plate[J]. Appl Opt, 2017, 56(22): 6181-6190.
[10] Lerman G M, Stern L, Levy U. Generation and tight focusing of hybridly polarized vector beams[J]. Optics Express, 2010, 18(26): 27650.