Raman Spectrum Analysis on the Solid--Liquid Boundary Layer of BGO Crystal Growth
ZHANG Xia1, YIN Shao-Tang1, WAN Song-Ming1, YOU Jing-Lin2, CHEN Hui2, ZHAO Si-Jie2, ZHANG Qing-Li1
1Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 2300312Shanghai Enhanced Laboratory of Ferrometallurgy, Shanghai University, Shanghai 200072
Raman Spectrum Analysis on the Solid--Liquid Boundary Layer of BGO Crystal Growth
1Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 2300312Shanghai Enhanced Laboratory of Ferrometallurgy, Shanghai University, Shanghai 200072
摘要We study the Raman spectra of Bi4Ge3O12 crystal at different temperatures, as well as its melt. The structure characters of the single crystal, melt and growth solid--liquid boundary layer of BGO are investigated by their high-temperature Raman spectra for the first time. The rule of structure change of BGO crystal with increasing temperature is analysed. The results show that there exists [GeO4] polyhedral structure and Bi ion independently in BGO melt. The bridge bonds Bi--O--Bi and Bi--O--Ge appear in the crystal and at the boundary layer, but disappear in the melt. The structure of the growth solid--liquid boundary layer is similar to that of BGO crystal. In the melt, the long-range order structure of the crystal disappears. The thickness of the growth solid--liquid boundary layer of BGO crystal is about 50μm.
Abstract:We study the Raman spectra of Bi4Ge3O12 crystal at different temperatures, as well as its melt. The structure characters of the single crystal, melt and growth solid--liquid boundary layer of BGO are investigated by their high-temperature Raman spectra for the first time. The rule of structure change of BGO crystal with increasing temperature is analysed. The results show that there exists [GeO4] polyhedral structure and Bi ion independently in BGO melt. The bridge bonds Bi--O--Bi and Bi--O--Ge appear in the crystal and at the boundary layer, but disappear in the melt. The structure of the growth solid--liquid boundary layer is similar to that of BGO crystal. In the melt, the long-range order structure of the crystal disappears. The thickness of the growth solid--liquid boundary layer of BGO crystal is about 50μm.
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2005, Vol. 22 
