• Optical Instruments
  • Vol. 44, Issue 6, 36 (2022)
Pengkun ZHENG and Jian CHEN*
Author Affiliations
  • School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
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    DOI: 10.3969/j.issn.1005-5630.2022.006.006 Cite this Article
    Pengkun ZHENG, Jian CHEN. Method for generating highly confined linearly polarized spatiotemporal optical vortices[J]. Optical Instruments, 2022, 44(6): 36 Copy Citation Text show less
    Intensity, phase and polarization distribution in x−y plane of horizontally polarized incident wave packet
    Fig. 1. Intensity, phase and polarization distribution in xy plane of horizontally polarized incident wave packet
    Intensity, phase and polarization distribution in x−y plane of vertically polarized incident wave packet
    Fig. 2. Intensity, phase and polarization distribution in xy plane of vertically polarized incident wave packet
    Intensity, phase and polarization distribution in x−y plane of 45° polarized incident wave packet
    Fig. 3. Intensity, phase and polarization distribution in xy plane of 45° polarized incident wave packet
    Schematic diagram of the tight focusing of STOV
    Fig. 4. Schematic diagram of the tight focusing of STOV
    Intensity and phase distribution of the horizontally polarized focal field component
    Fig. 5. Intensity and phase distribution of the horizontally polarized focal field component
    Total intensity and polarization distribution in x−y plane of the horizontally polarized focused STOV
    Fig. 6. Total intensity and polarization distribution in xy plane of the horizontally polarized focused STOV
    Intensity and phase distribution of the vertically polarized focal field component
    Fig. 7. Intensity and phase distribution of the vertically polarized focal field component
    Total intensity and polarization distribution in x−y plane of vertically polarized STOV
    Fig. 8. Total intensity and polarization distribution in xy plane of vertically polarized STOV
    Intensity and phase distribution of 45° polarized focal field component
    Fig. 9. Intensity and phase distribution of 45° polarized focal field component
    Total intensity and polarization distribution in x−y plane of 45° polarized STOV
    Fig. 10. Total intensity and polarization distribution in xy plane of 45° polarized STOV
    Pengkun ZHENG, Jian CHEN. Method for generating highly confined linearly polarized spatiotemporal optical vortices[J]. Optical Instruments, 2022, 44(6): 36
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