Opt. Mater. Express
 2022
DOI: 10.1364/ome.462407
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Improving the laser performance of ion beam sputtered dielectric thin films through the suppression of nanoscale defects by employing a xenon sputtering gas

Paul B. Mirkarimi1,
Colin Harthcock2,
Siyao Qiu3
et al.

Abstract: Laser damage-prone precursors in high index materials such as hafnia are believed to be the primary limiter in the performance of dielectric multilayer films to advance ultra-high power and energy laser applications. Removing or suppressing these precursors is the key to fabricating laser damage resistant thin films for the enabling technologies. Early work has revealed that nanobubbles formed by entrapped argon (Ar) working gas in ion beam sputtering (IBS) produced hafnia films are primarily responsible for t… Show more

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Oxide Materials for Emerging Applications in Photonics: introduction to the special issue

Muskens
1
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Méndez
2
,
Kinsey
3
et al. 2022
Opt. Mater. Express
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Oxide Materials for Emerging Applications in Photonics: introduction to the special issue

Muskens
1
,
Méndez
2
,
Kinsey
3
et al. 2022
Opt. Mater. Express
0
0
0
0
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