Journal
APPLIED SCIENCES-BASEL
Volume 11, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/app11010189
Keywords
hafnium oxide; film stress; dual ion beam sputtering; laser-induced damage; ion beam induced stress; optical coatings
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Ion beam sputtered hafnia is a preferred high index coating material for laser applications due to its mostly amorphous structure and adequate laser-induced damage threshold. Research shows that the stress of the film increases with the ion energy of the assisting ion source, leading to different laser-induced damage thresholds and morphologies depending on the stress state.
Ion beam sputtered hafnia is a preferred high index coating material for laser applications. It exhibits a mostly amorphous structure and an adequate laser-induced damage (LIDT) threshold. In this work, we investigated the influence of an assisting ion source on the film stress as well as the LIDT of the sputtered hafnia layers. The stress increases with an increasing ion energy of the assisting ion beam. We identified a maximum compressive stress of 3-3.5 GPa before the film cracks, blisters, and delaminates. Different states of stress lead to different laser-induced damage thresholds and damage morphologies.
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