Homogenization and reduction of the roughness of polished sapphire surfaces via inert gas plasma post-processing

In this paper, we report on the post-processing of classically precision polished sapphire surfaces by means of a dielectric barrier discharge plasma at atmospheric pressure. Here, the lateral distribution of roughness values over the surface was significantly reduced, leading to a higher lateral ho...

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Veröffentlicht in:	Optical materials express 2022-11, Vol.12 (11), p.4354
Hauptverfasser:	Gerhard, Christoph, Tasche, Daniel
Format:	Artikel
Sprache:	eng
Schlagworte:	Dielectric barrier discharge Gas plasmas Homogeneity Laser applications Optical components Rare gases Reduction Roughness Sapphire
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creator	Gerhard, Christoph Tasche, Daniel
description	In this paper, we report on the post-processing of classically precision polished sapphire surfaces by means of a dielectric barrier discharge plasma at atmospheric pressure. Here, the lateral distribution of roughness values over the surface was significantly reduced, leading to a higher lateral homogeneity. This effect is shown by a decrease in the standard deviation of the roughness values measured at different positions over the sample surface where an overall plasma-induced reduction by a factor of 8.7 was achieved. Moreover, the residual roughness was notably decreased by a mean factor of up to 2.9 to merely a few angstrom. The obtained results are of high interest for the enhancement of large-scale optical components made of sapphire, especially for UV or laser applications. This is finally visualized by the comparison of the total integrated scatter values calculated for untreated and post-processed surfaces.
doi_str_mv	10.1364/OME.465969
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subjects	Dielectric barrier discharge Gas plasmas Homogeneity Laser applications Optical components Rare gases Reduction Roughness Sapphire
title	Homogenization and reduction of the roughness of polished sapphire surfaces via inert gas plasma post-processing
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