[1] 李润丰, 施可彬. 基于光场调控的高时空分辨率光学成像[J]. 光学学报, 2019, 39(1): 0126010.

    Li R F, Shi K B. High spatiotemporal imaging based on optical field engineering[J]. Acta Optica Sinica, 2019, 39(1): 0126010.

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

[3] Daly M, Truong V G, Chormaic S N. Evanescent field trapping of nanoparticles using nanostructured ultrathin optical fibers[J]. Optics Express, 2016, 24(13): 14470-14482.

[4] Kozawa Y, Sato S. Optical trapping of micrometer-sized dielectric particles by cylindrical vector beams[J]. Optics Express, 2010, 18(10): 10828-10833.

[5] Li J X, Zang W P, Tian J G. Electron acceleration in vacuum induced by a tightly focused chirped laser pulse[J]. Applied Physics Letters, 2010, 96(3): 031103.

[6] Xu J, Yang Z J, Li J X, et al. Electron acceleration by a tightly focused cylindrical vector Gaussian beam[J]. Laser Physics Letters, 2017, 14(2): 025301.

[7] 郑晓, 杨艳芳, 何英, 等. 双环贝塞尔-高斯径向偏振光束经介质分界面的强聚焦[J]. 光学学报, 2016, 36(4): 0426001.

    Zheng X, Yang Y F, He Y, et al. Tight focusing of double-ring-shaped Bessel-Gaussian radially polarized beam through a dielectric interface[J]. Acta Optica Sinica, 2016, 36(4): 0426001.

[8] Li Y N, Ren Z C, Qian S X, et al. Analytical formulae of tightly focused Laguerre-Gaussian vector fields[J]. Journal of Optics, 2014, 16(10): 105702.

[9] Wang Z X, Ren G B, Gao Y X, et al. Plasmonic in-plane total internal reflection: azimuthal polarized beam focusing and application[J]. Optics Express, 2017, 25(20): 23989-24000.

[10] Labate L, Vantaggiato G, Gizzi L A. Intra-cycle depolarization of ultraintense laser pulses focused by off-axis parabolic mirrors[J]. High Power Laser Science and Engineering, 2018, 6: e32.

[11] Chen W B, Abeysinghe D C, Nelson R L, et al. Plasmonic lens made of multiple concentric metallic rings under radially polarized illumination[J]. Nano Letters, 2009, 9(12): 4320-4325.

[12] Wu G, Chen J J, Zhang R, et al. Highly efficient nanofocusing in a single step-like microslit[J]. Optics Letters, 2013, 38(19): 3776-3779.

[13] Du L P, Yuan G H, Tang D Y, et al. Tightly focused radially polarized beam for propagating surface plasmon-assisted gap-mode Raman spectroscopy[J]. Plasmonics, 2011, 6(4): 651-657.

[14] Du L P, Lei D Y, Yuan G H, et al. Mapping plasmonic near-field profiles and interferences by surface-enhanced Raman scattering[J]. Scientific Reports, 2013, 3: 3064.

[15] 仲义, 许吉, 陆云清, 等. 基于一维金属光子晶体平凹镜的柱矢量光束亚波长聚焦[J]. 物理学报, 2014, 63(23): 237801.

    Zhong Y, Xu J, Lu Y Q, et al. Subwavelength focusing of cylindrical vector beams by plano-concave lens based on one dimensional metallic photonic crystal[J]. Acta Physica Sinica, 2014, 63(23): 237801.

[16] Wang S M, Xu J, Zhong Y, et al. Focus modulation of cylindrical vector beams through negative-index grating lenses[J]. Optics Communications, 2016, 372: 245-249.

[17] Xu J, Zhong Y, Wang S M, et al. Focus modulation of cylindrical vector beams by using 1D photonic crystal lens with negative refraction effect[J]. Optics Express, 2015, 23(21): 26978-26985.

[18] Vodo P, Parimi P V, Lu W T, et al. Focusing by planoconcave lens using negative refraction[J]. Applied Physics Letters, 2005, 86(20): 201108.

[19] Lu Z L, Chen C H, Schuetz C A, et al. Subwavelength imaging by a flat cylindrical lens using optimized negative refraction[J]. Applied Physics Letters, 2005, 87(9): 091907.

[20] Shalaev VM, Kildishev AV, Klar TA, et al. Optical negative-index metamaterials: from low to no-loss and from linear to nonlinear optics[C]//LEOS 2006-19th Annual Meeting of the IEEE Lasers and Electro-Optics Society, October 29-November 2, 2006, Montreal, Que., Canada. New York: IEEE, 2006: 246- 247.

[21] Lu W T, Huang Y J, Vodo P, et al. A new mechanism for negative refraction and focusing using selective diffraction from surface corrugation[J]. Optics Express, 2007, 15(15): 9166-9175.

[22] Wang S C, Li X P, Zhou J Y, et al. Ultralong pure longitudinal magnetization needle induced by annular vortex binary optics[J]. Optics Letters, 2014, 39(17): 5022-5025.

[23] Grosjean T, Courjon D. Smallest focal spots[J]. Optics Communications, 2007, 272(2): 314-319.