| 光谱学与光谱分析 |
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| High Temperature Raman Spectra and Structure Character Study of BSO Crystal |
| QIU Huai-li1,WANG Ai-hua1,YOU Jing-lin2,LIU Xiao-jing1,CHEN hui2,YIN Shao-tang1 |
1. Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, China
2. Shanghai Enhanced Laboratory of Ferrometallurgy, Shanghai University, Shanghai 200072, China |
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Abstract The structure character of BSO crystal at room temperature was generalized. The main Raman shifts of lattice vibration at room temperature were interpreted. The Raman spectra of BSO crystal were measured in a temperature range from 293 K to 1 123 K with high temperature Raman spectroscopy and time-resolved detection techniques. Temperature-dependence character of the Raman spectra of the crystal was investigated. The vibration mode of the longest bond Bi—O(1) in crystal shifts from 542 cm-1 to 512 cm-1 with the temperature increasing from room temperature to 1 123 K. It can be attributed to the fact that oxygen atoms are electrostatic bond to Bi atoms. The intensity of 88 cm-1 modes, which belongs to combination mode of bending and stretching in Bi3O4 unit, changes not so noticeably as other modes, and even the 58 cm-1 mode of Bi atoms motions in crystal lattice decreases rapidly when the temperature is higher than 873 K, which indicates that the framework structure of the crystal is broken down at high temperature, while the Bi3O4 unit still exists.
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Received: 2003-04-12
Accepted: 2003-08-28
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Corresponding Authors:
QIU Huai-li
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| Cite this article: |
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QIU Huai-li,WANG Ai-hua,YOU Jing-lin, et al. High Temperature Raman Spectra and Structure Character Study of BSO Crystal [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2005, 25(02): 222-225.
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| URL: |
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https://www.gpxygpfx.com/EN/Y2005/V25/I02/222 |
[1] WANG Tian-ji et al(王天及等). Chinese Laser(中国激光),1983,11(8):483.
[2] Wojdowski W. Phys. Stat. Sol. (b) ,1985,130:121.
[3] Babonas G A et al. Opt. Spectrosc.,1982,53(2):211.
[4] Venugopalan S,Ramdas A K. Phys. Rev. B,1972,5(10):4065.
[5] Steudner R,Zmija J. J. Phys. Chem. Solids,1985,46(7):803.
[6] ZHANG Shang-an et al(张尚安等). J. of Synthetic Crystal(人工晶体),1987,16(3):185.
[7] Yu G Zaretskii et al. Opt. Spectrosc.,1983,54(3):338.
[8] XU Pei-cang, LI Ru-bi, WANG Yong-qiang(徐培苍,李如壁,王永强). Raman Spectroscopy in Geography(地学中的拉曼光谱). Xi'an: Shanxi Science Technology Press(西安:陕西科学技术出版社),1996.
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