Generation and Focusing Property with High-Numerical Aperture Lens of Vectorial Polarized Beam

Zhang Yanli; Li Xiaoyan; Zhu Jianqiang

Chinese Journal of Lasers, Volume. 36, Issue 1, 129(2009)

Zhang Yanli^*, Li Xiaoyan, and Zhu Jianqiang

Author Affiliations

[in Chinese]

show less

Abstract Get PDF(in Chinese)

References(24)

[1] [1] K.S.Youngworth, T. G. Brown. Focusing of high numerical aperture cylindrical vector beams[J]. Opt. Express, 2000, 7(2):77～87

[2] [2] R. Dorn, S .Quabis, G .Leuchs. Sharper focus for a radially polarized light beam[J] . Phys. Rev. Lett., 2003,91(23): 233901

[3] [3] Hao Chen,Qiwen Zhan, Yanli Zhang et al.. The Gouy phase shift of the highly focused radially polarized beam[J]. Phys.Lett.A,.2007, 371(3):259～261

[4] [4] Wu Guohua, Lou Qihong, Zhou Jun et al.. Focal shift in focused radially polarized ultrashort pulsed laser beams[J]. Appl. Opt., 2007,46(25):6251～6255

[5] [5] Chen Weibin, Zhan Qiwen. Optimal plasmonic focusing with radial polarization[C].SPIE, 2007, 6450: 64500D

[6] [6] Hikaru Kawauchi, Yuichi Kozawa, Shunic et al.. Simultaneous generation of helical beams with linear and radial polarization by use of a segmented half-waveplate[J]. Opt. Lett., 2008,33(4):399～401

[7] [7] Hao Bing, James Leger. Numerical aperture invariant focus shaping using spirally polarized beams[J]. Opt. Commun.,2008, 281:1924～1928

[8] [8] Zhao Daomu, Zhu Jiugao, Wang Shaomin. Comparing of propagation characteristics between the linearly polarized Bessel-Gauss beam and the azimuthally polarized Bessel-Gauss beam[J]. Chinese J.Lasers,1997,A24(1):55～58

[9] [9] S.Quabis, R.Dorn, G.Leuchs. Generation of a radially polarized doughnut mode of high quality[J]. Appl. Phys. B., 2005,81:597～600

[10] [10] Djenan Ganic, Xiaosong Gan, Min Gu. Generation of doughnut laser beams by use of a liquid-crystal cell with a conversion efficiency near 100%[J]. Opt. Lett.,2002,27 (15): 1351～1353

[11] [11] A.V.Nesterov, V.G.Niziev,V.P.Yakunin. Generation of high-power radially polarized beam[J]. J. Phys. D: Appl.Phys., 1999, 32 :2871～2875

[12] [12] Godai Miyaji, Noriaki Miyanaga, Koji Tsubakimoto et al.. Intense longitudinal electric fields generated from transverse electromagnetic waves[J]. Appl. Phys. Lett., 2004, 84(19): 3855～3857

[13] [13] Liu Cheng, Yan Changchun, Gao Shumei. Detection-angle and polarization dependences of the interfenometric imaging with near-field scanning microscopy[J]. Acta Optica Sinca, 2006,26(3):425～429

[14] [14] Qiwen Zhan,James R.Leger. Microellipsometer with radial symmetry[J]. Appl. Opt.,2002, 41(22):4630～4637

[15] [15] D.P.Biss, T.G.Brown. Cylindrical vector beam focusing through a dielectric interface[J]. Opt. Express , 2001, 9(10):490～497

[16] [16] Yiqiong Zhao, Qiwen Zhan, Yanli Zhang. Greation of a three-dimensional optical chain for controllable particle delivery[J]. Opt. Lett., 2005, 30(8):848～850

[17] [17] Zhang Yanli, Zhao Yiqiong, Zhan Qiwen et al.. Study of 3D optical chain with highly focused vector beam[J]. Acta Physica Sinica, 2006,55(3):1253～1256

[18] [18] Yiqiong Zhao, Qiwen Zhan, Yongping Li, Design of DOE for beam shaping with highly NA focused cylindrical vector beam[C]. SPIE, 2005,5636:56～65

[19] [19] Zhang Zhiming, Pu Jixiong, Wang Xiqing. Focusing of cylindrically polarized Bessel-Gaussian beams through a high numerical-aperture lens[J]. Chinese J.Lasers,2008, 35(3):401～405

[20] [20] QiwenZhan. Trapping metallic Rayleigh particles with radial polarization[J]. Opt. Express, 2004,12(15):3377～3382

[21] [21] Wang Sha, Liu Chong, Chen Jun et al. Influence of resonator structure of solid-state laser on thermal focal length measurement[J]. Chinese J.Lasers,2007,34(10):1431～1435

[22] [22] Feng Weiwei, Lin Lihuang, Chen Ligang. Polarizated-light interference spectrum of quartz wave plate[J]. Acta Optica Sinca, 2007,27(6):1044～1048

[23] [23] Zhao Kaihua, Zhong Xihua, Optics[M].Beijing: Beijing University Press, 2002, Volume2 ：215～216

[24] [24] I.J.Cooper, C.J.R.Sheppard, M.Roy. The numerical integration of fundamental diffraction integrals for converging polarized spherical waves using a two-dimensional form of Simpon’s 1/3 Rule[J]. J .Mod. Opt., 2005, 52(8) 1123～1134

CLP Journals

[1] Tang Yan, Hu Song, Zhao Lixin, Zhu Jiangping, He Yu. Polarization Property of Photon Sieves with High Numerical Aperture[J]. Acta Optica Sinica, 2012, 32(12): 1205002

[2] Yan Jie, Lu Yonghua, Wang Pei, Ming Hai. Study of Focal Spot of Radially Polarized Beam[J]. Acta Optica Sinica, 2010, 30(12): 3597

[3] Zhao Zhaoxiong, Liu Yong. Effect of Primary Coma Aberration on Focusing of a Circularly Polarized Vortex Bessel-Gaussian Beams[J]. Chinese Journal of Lasers, 2010, 37(3): 739

[4] Zhang Yaoju, Wang Yanyan, Shi Tianzhen, Fang Chaolong, Taikei Suyama. Formation of a Small Three-Dimensional Dark Spot with a High Uniform Light Wall[J]. Acta Optica Sinica, 2010, 30(s1): 100404

[5] Yu Yi, Pang Yu, Sun Yinhong, Wang Weimin, Gao Qingsong. Radially or Azimuthally Polarized Laser Based on Mode Selection of Thermally Induced Bifocus[J]. Chinese Journal of Lasers, 2010, 37(10): 2451

[6] Huang Yan, Ye Hong′an, Gao Laixu, Zhang Min, Liu Shugang. New Method of Generating Vectorial Polarized Beams[J]. Chinese Journal of Lasers, 2012, 39(4): 402004

[7] Gao Fuhai, Chen Baosuan, Pu Jixiong, Zhu Jianqiang. Intensity Distribution and Spiral Spectra of Laguerre-Gaussian Beam Passing through a Single-Slit[J]. Laser & Optoelectronics Progress, 2011, 48(9): 90501

[8] Xiao Baoling, Hu Zhaohui, Zhou Zhehai, Zhang Shulian, Yang Jie, Wang Xiaoling, Zhu Lianqing. Generation of Axially Symmetric Linearly-Polarized Vector Beams From Cat-Eye Cavity Laser Beams[J]. Laser & Optoelectronics Progress, 2012, 49(11): 111402

[9] Li Jia, Chen Yanru, Xin Yu, Zhou Muchun, Xu Shixue. Invariant Polarization of Stochastic Electromagnetic Beams through Astigmatic Optical Systems[J]. Chinese Journal of Lasers, 2011, 38(1): 102010

[10] Gao Xingyu, Liu Shugui. Study on Focusing of Radially Polarized Beam by High Numerical Aperture Objective[J]. Laser & Optoelectronics Progress, 2010, 47(10): 101801

[11] Hao Xiang, Kuang Cuifang, Wang Tingting, Liu Xu. Optimization of 0/π Phase Plate in Stimulated Emission Depletion Microscopy[J]. Acta Optica Sinica, 2011, 31(3): 318001

[12] Guo Fuyuan, Li Lianhuang, Zheng Hua, Zhang Zhen, Lin Xiaoming. Propagation Characteristics of Simple Cylindrical Polarized Beam[J]. Chinese Journal of Lasers, 2013, 40(8): 802003

[13] Liu Haigang, Yang Yanfang, He Ying, Leng Mei, Chang Qiang, Li Chunfang. Theoretical Study About Real-Time Manipulation of Optical Cage with Double-Ring-Shaped Hybridly Polarized Vector Beam[J]. Chinese Journal of Lasers, 2012, 39(3): 302009

[14] Zhang Haiming, Yang Xichen, Gao Gui. 3D Reconstruction of Parts to be Processed by Laser Remanufacturing Robot[J]. Chinese Journal of Lasers, 2010, 37(11): 2937

[15] Li Jie, Wu Fan, Wu Shibin, Kuang Long, Lin Changqing. Using a Laser Tracker to Measure the Surface of Off-Axis Aspheric Mirror During Grinding[J]. Acta Optica Sinica, 2012, 32(1): 112002

[16] Chang Qiang, Yang Yanfang, He Ying, Leng Mei, Liu Haigang. Focusing Features of Concentric Three-Ring Non-Uniform Mixing Polarization Vector Beams[J]. Acta Optica Sinica, 2012, 32(6): 626001

Tools

Get Citation

Copy Citation Text

Zhang Yanli, Li Xiaoyan, Zhu Jianqiang. Generation and Focusing Property with High-Numerical Aperture Lens of Vectorial Polarized Beam[J]. Chinese Journal of Lasers, 2009, 36(1): 129

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category: Beam transmission

Received: Apr. 22, 2008

Accepted: --

Published Online: Feb. 10, 2009

The Author Email: Yanli Zhang (zhasdg@ustc.edu)

DOI:

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology