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    Journals >Infrared and Laser Engineering >Volume 52 >Issue 7 >Page 20230299 > Article
    • Infrared and Laser Engineering
    • Vol. 52, Issue 7, 20230299 (2023)
    Freeform surface design of laser beam shaping by iteration in two orthogonal directions (invited)
    Jingfei Ye, Yu Zhu, Youyang Gu, Huanqiu Zhan..., Shuqin Cao, Jianmin Wei, Zhenzhen Song, Zhaolou Cao and Gaige Zheng|Show fewer author(s)
    Author Affiliations
  • School of Physics and Optoelectronic Engineering, Nanjing University of Information Science and Technology,Nanjing 210044, China
    • show less
    DOI: 10.3788/IRLA20230299 Cite this Article
    Jingfei Ye, Yu Zhu, Youyang Gu, Huanqiu Zhan, Shuqin Cao, Jianmin Wei, Zhenzhen Song, Zhaolou Cao, Gaige Zheng. Freeform surface design of laser beam shaping by iteration in two orthogonal directions (invited)[J]. Infrared and Laser Engineering, 2023, 52(7): 20230299 Copy Citation Text show less
    Diagram of freeform surface construction in one direction together with its normal error
    Fig. 1. Diagram of freeform surface construction in one direction together with its normal error
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    Schematic of freeform surface construction method by iteration in two orthogonal directions
    Fig. 2. Schematic of freeform surface construction method by iteration in two orthogonal directions
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    Flow diagram of the freeform surface construction method by iteration in two orthogonal directions together with surface normal correction
    Fig. 3. Flow diagram of the freeform surface construction method by iteration in two orthogonal directions together with surface normal correction
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    Laser beam shaping optical system by reflective freeform surface. (a) Source grids; (b) Target plane grids; (c) Freeform surface sampling points and its three-dimensional surface; (d) Schematic of structure of beam shaping optical system
    Fig. 4. Laser beam shaping optical system by reflective freeform surface. (a) Source grids; (b) Target plane grids; (c) Freeform surface sampling points and its three-dimensional surface; (d) Schematic of structure of beam shaping optical system
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    Normalized irradiance distribution in the target surface. (a) Irradiance distribution of input laser beam and the target plane along the line x = 0 mm and y = 0 mm before beam shaping; (b) Irradiance distribution of target plane along the line x = 0 mm and y = 0 mm after beam shaping
    Fig. 5. Normalized irradiance distribution in the target surface. (a) Irradiance distribution of input laser beam and the target plane along the line x = 0 mm and y = 0 mm before beam shaping; (b) Irradiance distribution of target plane along the line x = 0 mm and y = 0 mm after beam shaping
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    Normalized irradiance distribution of rectangular pattern. (a) Irradiance distribution in the target plane after beam shaping; (b) Irradiance distribution of target plane along the line x = 0 mm and y = 0 mm after beam shaping
    Fig. 6. Normalized irradiance distribution of rectangular pattern. (a) Irradiance distribution in the target plane after beam shaping; (b) Irradiance distribution of target plane along the line x = 0 mm and y = 0 mm after beam shaping
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    Normalized irradiance distribution of target plane at different distances
    Fig. 7. Normalized irradiance distribution of target plane at different distances
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    Variation of irradiance uniformity and RMS of global and local region in the target plane with different distances. (a) Irradiance uniformity; (b) The log (RMS) of irradiance
    Fig. 8. Variation of irradiance uniformity and RMS of global and local region in the target plane with different distances. (a) Irradiance uniformity; (b) The log (RMS) of irradiance
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    Normal vector angle of adjacent data sampling points
    Fig. 9. Normal vector angle of adjacent data sampling points
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    Comparison of variation of normal angle of adjacent data sampling points
    Fig. 10. Comparison of variation of normal angle of adjacent data sampling points
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    Comparison of freeform surface fitting errors
    Fig. 11. Comparison of freeform surface fitting errors
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    Influence of irradiance uniformity on different freeform surface machining errors
    Fig. 12. Influence of irradiance uniformity on different freeform surface machining errors
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    Abstract
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    Jingfei Ye, Yu Zhu, Youyang Gu, Huanqiu Zhan, Shuqin Cao, Jianmin Wei, Zhenzhen Song, Zhaolou Cao, Gaige Zheng. Freeform surface design of laser beam shaping by iteration in two orthogonal directions (invited)[J]. Infrared and Laser Engineering, 2023, 52(7): 20230299
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