1. Argon plasma etching of fused silica substrates for manufacturing high laser damage resistance optical interference coatings
- Author
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Saulė Abbas, Kęstutis Juškevičius, Romanas Samuilovas, Giedrius Abromavičius, Simonas Kičas, Alexandr Belosludtsev, Rytis Buzelis, and Ramutis Drazdys
- Subjects
Materials science ,Plasma etching ,business.industry ,02 engineering and technology ,Substrate (electronics) ,Surface finish ,021001 nanoscience & nanotechnology ,Laser ,01 natural sciences ,eye diseases ,Electronic, Optical and Magnetic Materials ,law.invention ,010309 optics ,Optics ,Etching (microfabrication) ,law ,Physical vapor deposition ,0103 physical sciences ,Surface roughness ,Optoelectronics ,Vacuum chamber ,0210 nano-technology ,business - Abstract
The laser damage resistance of an optical element in high power laser systems depends significantly on the surface quality of the optical substrate. In this experiment, commercially polished fused silica substrates were etched in argon plasma generated by a RF source and their surface roughness, flatness and optical properties were investigated. This method can be applied in a vacuum chamber prior to deposition of the multilayer coatings without breaking the vacuum. It was shown that by etching the resistance to 355 nm, laser radiation could be improved more than 8 times. However, it strongly related with primary substrate quality. The etching depth from 100 nm suggests the optimum performance of surface quality in terms of surface low roughness, high flatness, and high laser damage threshold. These results are of significant importance for the manufacture of high quality laser optics on fused silica substrates. As an example of an application of our technology, anti-reflective and polarizing optical interference coatings were deposited on etched substrates and the increase of their resistance to laser radiation was measured.
- Published
- 2017