Surface damage induced by micropores in transparent ceramics under nanosecond laser irradiation

• Published in: Optics express Vol. 32; no. 7; pp. 11613 - 11628
• Main Authors: Chen, Yue, Feng, Tao, Zhao, Yuan-An, Jiang, Ben-Xue, Zhang, Long
• Format: Journal Article
• Language: English
• Published: United States 25.03.2024
• ISSN: 1094-4087; 1094-4087
• DOI: 10.1364/OE.514951

The increasing use of transparent ceramics in laser systems presents a challenge; their low damage threshold has become a significant impediment to the development of powerful laser systems. Consequently, it is imperative to undertake research into the damage sustained by these materials. Micropores, the most common structural defects in transparent ceramics, inevitably remain within the material during its preparation process. However, the relationship between the density and size of these micropores and their impact on nanosecond laser damage threshold and damage evolution remains unclear. In this study, we utilize the annealing process to effectively manage the density and size of micropores, establishing a correlation between micropores in relation to damage thresholds. This study confirms for the first time that micropores significantly contribute to laser damage, comparing and analyzing the damage morphology characteristics of both front and rear surfaces of transparent ceramics. It also presents, potential mechanisms that may contribute to these differences in damage. This paper offers guidance for controlling micropores during the preparation and processing of transparent ceramics with high laser damage thresholds. The findings are expected to further improve the anti-nanosecond laser damage capabilities of transparent ceramics.