Preparation and laser induced damage properties of rare earth doped BAS glass
来源期刊:JOURNAL OF RARE EARTHS2008年第2期
论文作者:ZHANG Qitu NI Yaru LU Chunhua XU Zhongzi ZHANG Yan
Key words:BAS glass; Sm3+; La3+; laser induced damage threshold (LIDT); rare earths;
Abstract: Rare earth doped B2O3-Al2O3-SiO2 glass (RExBAS, x=5, 10, 20; RE=La, Sm) were prepared by solid state reaction method. Optical transmission spectra of such glass were characterized by ultraviolet spectrometers, and 1064 nm laser induced damage performance was investigated through the method of "1-on-1". The results indicated that there was a strong absorptive peak near 1064 nm in SmxBAS glass, the peak was enhanced with increasing x. While LaxBAS glass was transparent to 1064 nm laser, at the same time, the results of laser induced damage showed that the anti-laser induced damage performance of such glass was strengthened with the addition of rare earth oxide. Furthermore, the laser induced damage threshold (LIDT) of SmxBAS glass was significantly higher than that of LaxBAS glass. Consequently, Sm3+ doping was favor in the improvement of anti-laser induced damage performance for BAS glass.
ZHANG Qitu1,NI Yaru1,LU Chunhua1,XU Zhongzi1,ZHANG Yan1
(1.College of Materials Science and Engineering, Nanjing University of Technology, Nanjing 210009, China)
Abstract:Rare earth doped B2O3-Al2O3-SiO2 glass (RExBAS, x=5, 10, 20; RE=La, Sm) were prepared by solid state reaction method. Optical transmission spectra of such glass were characterized by ultraviolet spectrometers, and 1064 nm laser induced damage performance was investigated through the method of "1-on-1". The results indicated that there was a strong absorptive peak near 1064 nm in SmxBAS glass, the peak was enhanced with increasing x. While LaxBAS glass was transparent to 1064 nm laser, at the same time, the results of laser induced damage showed that the anti-laser induced damage performance of such glass was strengthened with the addition of rare earth oxide. Furthermore, the laser induced damage threshold (LIDT) of SmxBAS glass was significantly higher than that of LaxBAS glass. Consequently, Sm3+ doping was favor in the improvement of anti-laser induced damage performance for BAS glass.
Key words:BAS glass; Sm3+; La3+; laser induced damage threshold (LIDT); rare earths;
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