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Formation of laser‐induced periodic surface nanometric concentric ring structures on silicon surfaces through single‐spot irradiation with orthogonally polarized femtosecond laser double‐pulse sequences

Wei Liu, Jie Hu, Lan Jiang, Ji Huang, Jiangang Lü, Jiangang Yin, Zhaoling Qiu, Hailin Liu, Chen Li, Suocheng Wang, Shaojun Wang

2021Nanophotonics21 citationsDOIOpen Access PDF

Abstract

Abstract In this study, we report the formation of laser‐induced periodic surface nanometric concentric ring structures on silicon surfaces through single‐spot irradiation with orthogonally polarized femtosecond laser double‐pulse sequences (OP pulses). The period of the ring structures is marginally smaller than the irradiated laser’s wavelength, which indicates that the structures are a type of low‐spatial‐frequency laser‐induced periodic surface structures. Regular nanometric concentric ring structures can be formed when the time delay between two subpulses is approximately 1 ps (roughly from 500 fs to 1.5 ps) and the number of laser bursts is approximately 4. The formation mechanism of the concentric ring structures is attributed to the surface wave (i.e., cylindrical wave) stimulated by OP pulses through single‐spot irradiation is radially distributed. Large area of concentric ring structures eliminating anisotropy in the generation of structural colors was shown in this paper.

Topics & Concepts

LaserFemtosecondConcentricIrradiationOpticsMaterials scienceRing laserAnisotropySiliconWavelengthRing (chemistry)OptoelectronicsMolecular physicsPhysicsChemistryGeometryMathematicsOrganic chemistryNuclear physicsLaser Material Processing TechniquesPhotonic Crystals and ApplicationsOcular and Laser Science Research
Formation of laser‐induced periodic surface nanometric concentric ring structures on silicon surfaces through single‐spot irradiation with orthogonally polarized femtosecond laser double‐pulse sequences | Litcius