光谱学与光谱分析 |
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High-Precision In Situ Analysis of the Lead Isotopic Composition in Copper Using Femtosecond Laser Ablation MC-ICP-MS and the Application in Ancient Coins |
CHEN Kai-yun1, FAN Chao1, YUAN Hong-lin1*, BAO Zhi-an1, ZONG Chun-lei1, DAI Meng-ning1, LING Xue2, YANG Ying1 |
1. State Key Laboratory of Continental Dynamics, Department of Geology, Northwest University, Xi’an 710069, China 2. School of Cultural Heritage, Northwest University, Xi’an 710069, China |
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Abstract In the present study we set up a femtosecond laser ablation MC-ICP-MS method for lead isotopic analysis. Pb isotopic composition of fifteen copper (brass, bronze) standard samples from the National Institute of Standards Material were analyzed using the solution method (MC-ICP-MS) and laser method (fLA-MC-ICPMS) respectively, the results showed that the Pb isotopic composition in CuPb12 (GBW02137) is very homogeneous, and can be used as external reference material for Pb isotopic in situ analysis. On CuPb12 112 fLA-MC-ICPMS Pb isotope analysis, the weighted average values of the Pb isotopic ratio are in good agreement with the results analyzed by bulk solution method within 2σ error, the internal precision RSEs of the 208Pb/204Pb ratio and 207Pb/206Pb ratio are less than 90 and 40 ppm respectively, and the external precision RSDs of them are less than 60 and 30 ppm respectively. Pb isotope of thirteen ancient bronze coins was analyzed via fLA-MC-ICPMS, the results showed that the Pb isotopic composition of ancient coins of different dynasties is significantly different, and not all the Pb isotopic compositions in the coins even from the same dynasty are in agreement with each other.
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Received: 2012-07-10
Accepted: 2012-09-22
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Corresponding Authors:
YUAN Hong-lin
E-mail: sklcd@nwu.edu.cn
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[1] Pernicka E. Archaeometry, 1992, 37: 731. [2] PENG Zi-cheng, ZHANG Xiao-cen, ZHANG Bing-lun, et al(彭子成, 张晓岑, 张秉伦, 等). Chinese Science Bulletin(科学通报), 1992, (8): 731. [3] LI Xiao-cen(李晓岑). Lead Isotope Archaeology in China(中国铅同位素考古). Kunming: Yunnan Science and Technology Press(昆明: 云南科技出版社), 2000. 10. [4] ZHANG Zhi-hong, LIU Zhuang, HE Bao-yan, et al(张志红, 刘 壮, 何宝燕, 等). Modern Scientific Instrunments(现代科学仪器), 2000, (2): 45. [5] JIN Zheng-yao(金正耀). Acta Geosicientia Sinica(地球学报), 2003, 24(6): 548. [6] CHANG Xiang-yang, ZHU Bing-quan, JIN Zheng-yao(常向阳, 朱炳泉, 金正耀). Journal of Guangzhou University(广州大学学报), 2003, 2(4): 323. [7] Ponting M, J. A. Evans J A, Pashley V. Archaeometry, 2003, 45(4): 591. [8] LI Qing-lin, ZHU Jun-xiao, QIN Ying, et al(李清临, 朱君孝, 秦 颖, 等). Sciences of Conservation and Archaeology(文物保护与考古科学), 2004, 16(3):13. [9] CUI Jian-feng(崔剑锋). Sciences of Conservation and Archaeology(文物保护与考古科学), 2004, 16(3): 17. [10] QIN Ying, WANG Chang-sui, ZHU Ji-ping, et al(秦 颍, 王昌燧, 朱继平, 等). Sciences of Conservation and Archaeology(文物保护与考古科学), 2004, 16(2): 36. [11] JIN Zheng-yao(金正耀). Sciences of Conservation and Archaeology(文物保护与考古科学), 2005, 17(2): 46. [12] Baker J, Stos S, Waight T. Archaeometry, 2006, 48(1): 45. [13] WEI Guo-feng, QIN Ying, WANG Chang-sui, et al(魏国峰, 秦 颖, 王昌燧, 等). Journal of University of Science and Technology of China(中国科学技术大学学报), 2006, 36(7): 771. [14] LI Qing-ling, ZHU Jun-xiao(李清临, 朱君孝). Jianghan Archaeology(江汉考古), 2007, (105): 67. [15] Soodabeh D M, Gerhard Pr B, David W W, et al. Journal of Archaeological Science, 2007, 34 (10): 1555. [16] CUI Jian-feng,WU Xiao-hong(崔剑锋, 吴小红). The Lead Isotope Archaeology-Bronzes Unearthed in Yunnan in China and Vietnam, for Example(铅同位素考古学——以中国云南和越南出土青铜器为例). Beijing: Cultural Relies Press(北京: 文物出版社), 2008. [17] XIANG Fang, JIANG Zhen-dong, ZHANG Qing(向 芳, 蒋镇东, 张 擎). Journal of Earth Sciences and Environment(地球科学与环境学报), 2010, 32(2): 144. [18] WANG Chang-ming, JIN Zheng-yao(汪常明, 金正耀). Sciences of Conservation and Archaeology(文物保护与考古科学), 2010, 22(1): 83. [19] LI Wen-lang, LI Yan-xia(李纹浪, 李艳霞). Liaoning Geology(辽宁地质), 1995, (3): 238. [20] JIN Lan-lan, JIANG Jin-feng, HU Sheng-hong, et al(靳兰兰, 姜劲峰, 胡圣红, 等). Chinese Journal of Analytical Chemistry(分析化学), 2007, 35(2): 191. [21] White W M, Albarède F, Télouk P. Chemical Geology, 2000, 167(3-4): 257. [22] Rehkmper M, Mezger K. Journal of Analytical Atomic Spectrometry, 2000, 15: 1451. [23] Kenneth D Collerson, Balz S Kamber, Ronny Schoenberg., 2002, Chemical Geology, 2002, 188(1-2): 65. [24] Reuer M K, Boyle E A, Grant B C. Chemical Geology, 2003, 200(1-2): 137. [25] Nielsen S G, Rehkmper M, Baker J, et al. Chemical Geology, 2004, 204(1-2): 109. [26] Jochum K P, Stoll B, Herwig K, et al. International Journal of Mass Spectrometry, 2005, 242(2-3): 281. [27] Yiu-chung Yip, James Chung-wah Lam, Wai-fong Tong. Trends in Analytical Chemistry, 2008, 27(5): 460. [28] Shaheen M, Fryer B J. Journal of Analytical Atomic Spectrometry, 2010, 25: 1006. [29] XIE Lie-wen, YANG Jin-hui, YANG Yue-heng, et al(谢烈文, 杨进辉, 杨岳衡, 等). Acta Geoscientica Sinica, 2005, 26(Supl): 23. [30] Beatriz Fernández. Trends in Analytical Chemistry, 2007, 26(10): 951. [31] Koch J, Günther D. Applied Spectroscopy, 2011, 65(5): 155. [32] ZHANG Jin-li, YUAN Hong-lin, GAO Shan, et al(张锦丽, 袁洪林, 高 山, 等). Earth Science(Journal of China University of Geosciences(地球科学), 2008, 33(1): 46. [33] Zadnik M G, Specht S, Begemann F. International Journal of Mass Spectrometry and Ion Processes, 1989, 89(1): 103. [34] Baker J, Peate D, Waight T, et al. Chemical Geology, 2004, 211(3-4): 275. [35] Thirlwall M F. Chemical Geology, 2002, 184(3-4): 255. [36] GeoRem Database: http://georem.mpch-mainz.gwdg.de/. [37] Galer S J G, Abouchami W. Mineralogical Magazine, 1998, 62A: 491. [38] Ludwig K R. Berkeley Geochronology Center Special Publication, 2003, (4): 74. |
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