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随着引入的金属阳离子M 半径的增加,Ga_2S_3-2MCl玻璃的成玻性逐渐变好。通过采用改变配料质量和淬冷速率的方法成功获得了均匀的Ga_2S_3-2MCl(M=Tl,Rb,Cs)玻璃样品。根据化学序的微结构模型,通过把Ga_2S_3-2MCl玻璃的微结构考虑成金属阳离子以氯原子为最近邻配位均匀分散于桥式单元[Ga_2S_(4/2)Cl_2]~(2-)、类乙烷单元[S_3Ga-GaS_3]等所组成的玻璃网络中,成功地阐释了GaS_3-2MCl玻璃的拉曼谱随金属阳离子变化的演变。 相似文献
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Ge-Ga-Ag-S chalcogenide glasses with the composition Ge30Ga3Ag4S63 were obtained by the conventional melt-quenching method. According to the visible-infrared and infrared spectra, Ge30Ga3Ag4S63 chalcogenide glass possesses wide transmittance window from 510 nm in the visible region up to 11.5 μm in the infrared region. And the present glass has better glass-forming ability (the difference between glass transition temperature and the peak temperature of crystallization is larger than 100 ℃). Utilizing maker-fringe technique, a prominent second-harmonic generation was observed in Ge30Ga3Ag4S63 chalcogenide glass after irradiated by an electron beam (Accelerating voltage: 25 kV; Irradiating current: 15 nA; Irradiating time: 10 min). And the mechanism of second-harmonic generation in the Ge-Ga-Ag-S system glasses was discussed. 相似文献
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采用脉冲激光沉积法制备了(GeSe2)100-x-Bix(x=0~12)硫系玻璃薄膜。测量了薄膜的光学透射谱、吸收谱和拉曼光谱。薄膜的光学短波吸收边对应于电子的间接带间跃迁,并由此计算出其光学带隙。拉曼光谱分析表明Bi含量的增加,减小了玻璃的平均键能,导致光学带隙由1.94 eV减小到1.11 eV。Tauc斜率由486 cm-1/2eV-1/2减小到178 cm-1/2eV-1/2。退火过程中的热漂白效应减小了玻璃的结构无序性,使得薄膜的光学带隙和Tauc斜率相应增大。 相似文献
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陶海征 《武汉理工大学学报(材料科学英文版)》2003,18(3)
1 IntroductionHalideglassesandchalcogenideglasseshavere ceivedagreatdealofinterestaspotentialcandidatesformaterialstransmittinginthemid infraredregion[1,2 ] .How ever ,therelativelypoorchemicaldurabilityofhalidegla sses[3 ] togetherwiththeirlow glasstransitiontempera tures ,especiallyfornon fluoridehalideglasses ,poseseri ousproblemsforpracticalapplications .Ontheotherhand ,chalcogenideglassesarewellknownfortheirhighchemicaldurabilityandratherwiderinfraredtransmittancerange[4] .However,theirr… 相似文献
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Microstructural Probing of (1-x) GeS_(2-x)Ga_2S_3 System Glasses By Raman Scattering 总被引:2,自引:0,他引:2
陶海征 《武汉理工大学学报(材料科学英文版)》2005,20(3)
1IntroductionFiber amplifiers are of technological interest for ap-plications in optical communications systems.Attentionshas been paidtothe chalcogenide glasses because of theirlower phonon energy and higher quantumefficiency[1-4].Galliumis an essential … 相似文献
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