Influences of annealing temperature on the optical properties of SiOx thin film prepared by reactive magnetron sputtering

SiOx films with different oxygen contents were prepared by reactive magnetron sputtering and annealed at a temperature range of 200-1000 deg C in ambient air atmosphere. The dependences of the film thickness, refractive index and optical gap, as well as the structural and compositional properties on...

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Published inApplied surface science Vol. 255; no. 5; pp. 2006 - 2011
Main Authors Huang, Feng, Song, Qiuming, Li, Ming, Xie, Bin, Wang, Haiqian, Jiang, Yousong, Song, Yizhou
Format Journal Article
LanguageEnglish
Published 30.12.2008
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Abstract SiOx films with different oxygen contents were prepared by reactive magnetron sputtering and annealed at a temperature range of 200-1000 deg C in ambient air atmosphere. The dependences of the film thickness, refractive index and optical gap, as well as the structural and compositional properties on the annealing temperature were studied. Three evolution stages with annealing temperature were observed. The first stage occurs below 400 deg C, at which the film thickness expands, the refractive index reduces and the optical gap increases. The second stage sets in at around 400-500 deg C and persists to a temperature of around 800 deg C. At this stage, film thickness reduces, refractive index increases and the optical gap decreases. The third stage takes place at annealing temperatures above 800 deg C, where the films become inhomogeneous from surface to interface due to oxidization. Stress relaxation, phase separation and oxidation mechanisms were correlated with the optical properties of the annealed films.
AbstractList SiOx films with different oxygen contents were prepared by reactive magnetron sputtering and annealed at a temperature range of 200-1000 deg C in ambient air atmosphere. The dependences of the film thickness, refractive index and optical gap, as well as the structural and compositional properties on the annealing temperature were studied. Three evolution stages with annealing temperature were observed. The first stage occurs below 400 deg C, at which the film thickness expands, the refractive index reduces and the optical gap increases. The second stage sets in at around 400-500 deg C and persists to a temperature of around 800 deg C. At this stage, film thickness reduces, refractive index increases and the optical gap decreases. The third stage takes place at annealing temperatures above 800 deg C, where the films become inhomogeneous from surface to interface due to oxidization. Stress relaxation, phase separation and oxidation mechanisms were correlated with the optical properties of the annealed films.
Author Li, Ming
Huang, Feng
Xie, Bin
Song, Yizhou
Wang, Haiqian
Jiang, Yousong
Song, Qiuming
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