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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 7 >Page 0700007 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 7, 0700007 (2021)
    Research Progress of Laser-Induced Surface Periodic Structure
    Tianyu Wang1、2, Xin Li1、2、*, Jintian Bian1、2、**, and Xiaoquan Sun1、2、***
    Author Affiliations
  • 1State Key Laboratory of Pulsed Power Laser Technology, National University of Defense Technology, Hefei , Anhui 230037, China
  • 2Anhui Key Laboratory of Advanced Laser Technology, National University of Defense Technology, Hefei , Anhui 230037, China
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    DOI: 10.3788/LOP202158.0700007 Cite this Article Set citation alerts
    Tianyu Wang, Xin Li, Jintian Bian, Xiaoquan Sun. Research Progress of Laser-Induced Surface Periodic Structure[J]. Laser & Optoelectronics Progress, 2021, 58(7): 0700007 Copy Citation Text show less
    Stratification of cross section of material surface[23]
    Fig. 1. Stratification of cross section of material surface[23]
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    Schematic of formation theory of LSFL[27]
    Fig. 2. Schematic of formation theory of LSFL[27]
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    Formation process of compound double pulse train
    Fig. 3. Formation process of compound double pulse train
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    Spatial distribution of LIPSS under action of single pulse with large energy [30]
    Fig. 4. Spatial distribution of LIPSS under action of single pulse with large energy [30]
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    Relationship between thickness of silica film on silicon substrate and direction of LSFL[33]
    Fig. 5. Relationship between thickness of silica film on silicon substrate and direction of LSFL[33]
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    Schematic of single grating structure of LIPSS[35]. (a) 3D schematic diagram; (b) 2D sectional view
    Fig. 6. Schematic of single grating structure of LIPSS[35]. (a) 3D schematic diagram; (b) 2D sectional view
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    Surface condition of target material under different conditions[36]
    Fig. 7. Surface condition of target material under different conditions[36]
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    Morphology of LIPSS under different pulse width laser[38]. (a)25 fs; (b) 50 fs;(c)100 fs
    Fig. 8. Morphology of LIPSS under different pulse width laser[38]. (a)25 fs; (b) 50 fs;(c)100 fs
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    Apparatu for preparing diamond crystals[45]
    Fig. 9. Apparatu for preparing diamond crystals[45]
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    Microscopic morphology of LIPSS formed on surface of diamond scattering crystal[45]. (a) 2D cross section curve of single LIPSS; (b) 3D schematic; (c) 2D cross-section curve of multiple LIPSS
    Fig. 10. Microscopic morphology of LIPSS formed on surface of diamond scattering crystal[45]. (a) 2D cross section curve of single LIPSS; (b) 3D schematic; (c) 2D cross-section curve of multiple LIPSS
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    Surface morphology of copper silicide crystal grown by LIPSS[47]
    Fig. 11. Surface morphology of copper silicide crystal grown by LIPSS[47]
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    Surface micromorphology of highly hydrophobic stainless steel with layered structure prepared by LIPSS[48]
    Fig. 12. Surface micromorphology of highly hydrophobic stainless steel with layered structure prepared by LIPSS[48]
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    Actual test results of highly hydrophobic stainless steel[45]
    Fig. 13. Actual test results of highly hydrophobic stainless steel[45]
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    HAP porous structure prepared by LIPSS under different number of pulses[52]. (a)5; (b)10
    Fig. 14. HAP porous structure prepared by LIPSS under different number of pulses[52]. (a)5; (b)10
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    GNP-PS composite material prepared by LIPSS[53]
    Fig. 15. GNP-PS composite material prepared by LIPSS[53]
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    ITO thin films prepared by LIPSS[55]
    Fig. 16. ITO thin films prepared by LIPSS[55]
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    Tianyu Wang, Xin Li, Jintian Bian, Xiaoquan Sun. Research Progress of Laser-Induced Surface Periodic Structure[J]. Laser & Optoelectronics Progress, 2021, 58(7): 0700007
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    Paper Information
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