超高斯涡旋光束在空间中的传输特性

肖谦裔; 张蓉竹

doi:doi:10.11884/hplpb201426.121015

强激光与粒子束, 2014, 26 (12): 121015, 网络出版: 2015-01-08

超高斯涡旋光束在空间中的传输特性

Propagation characteristics of super-Gaussian beams with vortex wave-front

论文大纲

肖谦裔 ^*张蓉竹

作者单位

四川大学电子信息学院, 成都 610064

涡旋相位板超高斯光束光斑半径广义光束质量因子 spiral phase plate super-Gaussian beam radius of light intensity generalized beam quality factor

摘要

研究了超高斯涡旋光束光强最大值、光斑半径以及环围能量半径等参数随传输距离和拓扑荷数的变化规律,并与高斯涡旋光束做了比较,结果表明: 超高斯涡旋光束的光斑半径和环围能量半径随拓扑荷数及传输距离呈近似线性关系;对同一拓扑荷数和传输距离,高斯涡旋光束的能量较超高斯涡旋光束要发散;当拓扑荷数较大时,超高斯涡旋光束的光斑半径比高斯涡旋光束更大。针对光束质量研究了广义光束质量因子随传输距离和拓扑荷数的变化,结果表明传输距离足够远时,拓扑荷数较小的超高斯涡旋光束具有更好的光束质量。

Abstract

The super-Gaussian vortex beams generated from spiral phase plates(SPP)with different topological charges are discussed, also the properties of the light intensity distribution like max light intensity, radius of light beams and its encircled energy varying with propagation distance and with topological charges are studied and compared, which shows that the radius of light intensity or of encircled energy presents rough linear relationships to the propagation distance and topological charges. Moreover, the energy of Gaussian vortex beams is always more dispersed than that of super-Gaussian vortex beams, while the radius of light intensity of Gaussian vortex beams is smaller than that super-Gaussian vortex beams when referring to higher topological charges. The generalized M2 factor varying with propagation distance and topological charges is also discussed to feature the quality of beams, which shows that the super-Gaussian beam at a relatively far distance with lower topological charges could have better quality.

参考文献

[1] 唐碧华,罗亚梅,贺兵,等.空心高斯涡旋光束的远场特性[J].强激光与粒子束, 2013, 25(10):2571-2576.(Tang Bihua, Luo Yamei, He Bing, et al. Characteristics of hollow Gaussian vortex beams in the far field. High Power Laser and Particle Beams, 2013, 25(10):2571-2576)

[2] Vaughan J M, Willetts D V. Interference properties of a light beam having a helical wave surface[J]. Optics Communications, 1979, 30(3):263-267.

[3] Swartzlander Jr G A, Law C T. Optical vortex solitons observed in Kerr nonlinear media[J]. Phy Rev Lett, 1992, 69:2503-2506.

[4] 倪涌舟,周国泉.涡旋洛伦兹-高斯光束的远场矢量结构特征[J].强激光与粒子束, 2013, 25(9):2241-2246.(Ni Yongzhou, Zhou Guoquan. Vertorial structure characteristics of vortex Lorentz-Gauss beam in far-field. High Power Laser and Particle Beams, 2013, 25(9):2241-2246)

[5] Kuga T, Torii Y, Shiokawa N, et al. Novel optical trap of atoms with a doughnut beam[J]. Phy Rev Lett, 1997, 78(25):4713-4716.

[6] 范长江,徐建程,任志君,等.激光直写制作高阶螺旋相位板及其性能[J].强激光与粒子束, 2011, 23(12):3283-3286.(Fan Changjiang, Xu Jiancheng, Ren Zhijun, et al. Performance of high-order spiral phase plate made by direct laser writing lithography. High Power Laser and Particle Beams, 2011, 23(12):3283-3286)

[7] Curtis J E, Koss B A, Grier D G. Dynamic holographic optical tweezers[J]. Optics Communications, 2002, 207(1):169-175.

[8] Schweiger G, Nett R, zel B, et al. Generation of hollow beams by spiral rays in multimode light guides[J]. Optics Express, 2010, 18(5):4510-4517.

[9] Khonina S N, Kotlyar V V, Shinkaryev M V, et al. The phase rotor filter[J]. J Mod Opt, 1992, 39(5):1147-1154.

[10] Sacks Z S, Rozas D, Swartzlander G A. Holographic formation of optical-vortex filaments[J]. J Opt Soc Am B, 1998, 15(8):2226-2234.

[11] Kotlyar V V, Almazov A A, Khonina S N, et al. Generation of phase singularity through diffracting a plane or Gaussian beam by a spiral phase plate[J]. J Opt Soc Am A, 2005, 22(5):849-861.

[12] 吕百达.激光光学[M]. 成都:四川大学出版社, 1992.(Lü Baida. Laser Optics. Chengdu: Sichuan University Press, 1992)

[13] Martinez-Herrero R, Mejias P M. Second-order spatial characterization of hard-edge diffracted beams[J]. Optics Letters, 1993, 18(19):1669-1671.

[14] 唐明.空心高斯光束的传输特性研究[D].长沙:湖南大学, 2010:28-31.(Tang Ming. Study on propagation properties of hollow Gaussian light beam. Changsha: Hunan University, 2010:28-31)

肖谦裔, 张蓉竹. 超高斯涡旋光束在空间中的传输特性[J]. 强激光与粒子束, 2014, 26(12): 121015. Xiao Qianyi, Zhang Rongzhu. Propagation characteristics of super-Gaussian beams with vortex wave-front[J]. High Power Laser and Particle Beams, 2014, 26(12): 121015.

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