| 光谱学与光谱分析 |
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| A Primary Raman Microscopic Study of the Turquoise and Its Role in Provenance-Tracking |
| SHE Ling-zhu1,QIN Ying1*,FENG Min2,MAO Zhen-wei1,XU Cun-yi3,HUANG Feng-chun4 |
1. Department of Scientific History and Archaeometry,University of Science and Technology of China,Hefei 230026, China
2. Department of Geochemistry, University of Science and Technology of China,Hefei 230026, China
3. The Study of Structure Open Laboratory, University of Science and Technology of China,Hefei 230026, China
4. The Institute of Cultural Relic and Archeology in Hubei Province, Wuhan 430077, China |
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Abstract The authors analyzed four modern turquoises from Hubei province and Anhui province by using the Raman microscopic with the samples are gathered on the spot. According to the study the authors discovered that the Raman spectra of the Hubei turquoises with different color but with the same backgrounds of mineral resource and the formation cause of mineral resource and in the same formation line of turquoise mineral resource have little difference. On the contrary, there is a strong difference in the 900-100 cm-1 region of the Raman spectra between the turquoises from Hubei province and the turquoise from Anhui province which has remarkable different backgrounds of mineral resource and the formation cause of mineral resource. At the same time the authors studied two ancient turquoises to discuss the feasibility of using the Raman spectra of turquoises, the provenance of which is known, as the fingerprint directions to track the provenance of ancient turquoises.
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Received: 2007-06-19
Accepted: 2007-10-06
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Corresponding Authors:
QIN Ying
E-mail: yingqin@ustc.edu.cn
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[1] CHEN Tian-hu, CHEN Shuang-xi, YANG Xue-ming(陈天虎, 陈双喜, 杨学明编著). A Guidebook to the Appreciation of Precious Stones and Jades(宝玉石鉴赏入门). Hefei: The Press of University of Science and Technology of China(合肥: 中国科学技术大学出版社), 1998. 132.
[2] HUANG Xuan-zhen(黄宣镇). China Non-Metallic Mining Industry Herald(中国非金属矿工业导刊),2003,3(6):50.
[3] HE Song(何 松). Jewelry Science and Technology(珠宝科技),2004, 16(6): 51.
[4] TU Huai-kui(涂怀奎). Geology of Shaanxi(陕西地质),1996,14(2):59.
[5] WANG Rong, WANG Chang-sui, FENG Min, et al(王 荣,王昌燧,冯 敏,等). Cultural Relics of Central China(中原文物),2007,(2):101.
[6] FENG Min, MAO Zhen-wei, PAN Wei-bin, et al(冯 敏,毛振伟,潘伟斌,等). Sciences of Conservation and Archaeology(文物保护与考古科学),2003,15(3):9.
[7] WANG Ji-you, WANG Min, LIU Ling, et al(王吉有,王 闵,刘 玲,等). The Journal of Light Scattering(光散射学报),2006,18(2):130.
[8] Frost Ray L, Reddy B Jagannadha, Martens Wayde N, et al. Journal of Molecular Structure, 2006, 788(1-3): 224. |
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