Physical mechanism of pulsed laser interaction with fused silica optics during CO2 laser mitigation process

Chao Tan, Linjie Zhao, Mingjun Chen, Jian Cheng, Zhaoyang Yin, Qi Liu, Hao Yang, Wei Liao

Research output: Contribution to journalArticlepeer-review

11 Citations (SciVal)

Abstract

The intrinsic physical mechanism of CO2 laser rapid ablation mitigation micro-defects on fused silica optics surface are studied through experiments and simulations. Based on the multi-physics coupling mathematical model involving the stages of phase transition, melting flow and evaporative ablation, the calculated depth of Gaussian ablation crater and protrusion height at the edge formed by single laser pulse are 5.05 μm and 25 nm respectively, which agrees well with the experiment. Then, the temperature distribution, heat affected zone, solid-liquid transition process and surface morphology evolution under the action of moving pulsed laser are analyzed. Through studies of the relationship between laser parameters and processed surface quality, it can be concluded that the periodic structural features at the bottom of surface morphology are formed by the superposition of residual height of linear laser processing. Laser with short pulse width is more likely to cause material redeposition on the surface of fused silica optics.

Original languageEnglish
Article number120662
JournalJournal of Non-Crystalline Solids
Volume558
Early online date5 Feb 2021
DOIs
Publication statusPublished - 15 Apr 2021

Funding

This work was supported by the National Natural Science Foundation of China ( 51775147 , 51705105 ); Science Challenge Project ( TZ2016006-0503-01 ).

FundersFunder number
National Natural Science Foundation of China51705105, 51775147
Science Challenge Project of ChinaTZ2016006-0503-01

    Keywords

    • CO laser
    • Fused silica
    • Periodic structures
    • Physical mechanism
    • Rapid ablation mitigation
    • Surface morphology

    ASJC Scopus subject areas

    • Electronic, Optical and Magnetic Materials
    • Ceramics and Composites
    • Condensed Matter Physics
    • Materials Chemistry

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