Dynamic behavior modeling of laser-induced damage initiated by surface defects on KDP crystals under nanosecond laser irradiation

Yang, Hao and Cheng, Jian and Liu, Zhichao and Liu, Qi and Zhao, Linjie and Wang, Jian and Chen, Mingjun (2020) Dynamic behavior modeling of laser-induced damage initiated by surface defects on KDP crystals under nanosecond laser irradiation. Scientific Reports, 10 (1). 500. ISSN 2045-2322 (https://doi.org/10.1038/s41598-019-57300-2)

[thumbnail of Yang-etal-SR-2020-Dynamic-behavior-modeling-of-laser-induced-damage-initiated]
Preview
Text. Filename: Yang_etal_SR_2020_Dynamic_behavior_modeling_of_laser_induced_damage_initiated.pdf
Final Published Version
License: Creative Commons Attribution 4.0 logo

Download (1MB)| Preview

Abstract

The issue of laser-induced damage of transparent dielectric optics has severely limited the development of high-power laser systems. Exploring the transient dynamic behaviors of laser damage on KDP surface by developing multi-physics coupling dynamics model is an important way to reveal the mechanism of nanosecond laser damage. In this work, KDP crystals are taken as an example to explore the mechanism of laser-induced surface damage. Based on the theories of electromagnetic field, heat conduction and fluid dynamics, a multi-physics coupling dynamics model is established for describing the evolution of nanosecond damage processes. The dynamics of laser energy transmission, thermal field distribution and damage morphology during nanosecond laser irradiation are simulated with this model. It is found that the enhancement of light intensity caused by surface defect plays an important role in the initial energy deposition and damage initiation of the laser irradiation area. The evolution of temperature field and crater morphology during subsequent laser irradiation is helpful to understand the laser damage process. The feasibility of this model is verified by the morphology information of typical defect-induced laser damage. This work provides further insights in explaining the laser-induced damage by surface defects on KDP crystals. The model can be also applied to investigate the laser damage mechanisms of other transparent dielectric optics.

ORCID iDs

Yang, Hao, Cheng, Jian, Liu, Zhichao, Liu, Qi ORCID logoORCID: https://orcid.org/0000-0002-1960-7318, Zhao, Linjie, Wang, Jian and Chen, Mingjun;