摘要
将激光器(LA)和电感耦合等离子体质谱仪(ICP-MS)联用避免了溶液分析繁琐、耗时的前处理操作,减少了样品制备过程中可能带来的污染,同时又具备分析成本低、测试速度快、分析数据精度高等优势。本文将LA与ICP-MS联接使用,通过激光能量密度和剥蚀频率组合来讨论较低的元素分馏效应,同时匹配RF功率、采样深度、载气及He气流速等主要工作参数以获得较高的元素信号灵敏度和稳定性,从而得到仪器最优工作参数组合,建立了可靠的锆石U-Pb定年方法。通过对锆石标样91500、GJ-1及Ple2ovic互测结果表明,其^(206)Pb/^(238)U加权平均年龄分别为1063.9±6.0 Ma(2σ,n=20)、600.3±2.6 Ma(2σ,n=27)及337.6±1.7 Ma(2σ,n=20),测试结果准确度和精度均在1%范围内,与前人报道的误差范围一致。使用优化后的仪器参数对来自鄂东南铜绿山矿区石英正长闪长玢岩岩体中的实际锆石样品进行测试,获得其^(206)Pb/^(238)U年龄与前人研究结果基本一致,表明本法能准确地对锆石进行定年分析。
Laser Ablation (LA) combined with Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) avoids cumbersome analysis of solution and time-consuming pre process, thus reducing possible pollution during sample preparation. Moreover, LA-ICP-MS has the advantages of low cost, rapid determination, and high precision of analysis data. The lower fractionation effect of elements is discussed by combing laser energy density and denudation frequency. Meanwhile, the main working parameters such as RF power, sampling depth, carrier gas and He gas flow rate are matched to obtain high sensitivity and stability of the signal. Based on these, the optimal parameters of the instrument are obtained and reliable zircon U-Pb dating method is established. By mutual determination of zircon age standard substance 91500, GJ-1, and Plesovic, the respective weighted average ages of 206Pb/238U were 1063.9 ±6.0 Ma (2(7, =20) , 600. 3 ±2.6 Ma (2(7, =27) , and 337.6 ±1.7 Ma (2(7,n =20). The accuracy and precision are within 1 % , consistent with previous studies. Using the optimized parameters of the instrument, the quartz-orthoclase diorite porphyrite from the Tonglushan Orefield in Southeast Hubei has the 206Pb/238U age of zircon, basically consistent with the previous results, indicating that this method can be used for zircon U-Pb dating.
作者
周亮亮
魏均启
王芳
仇秀梅
ZHOU Liang-liang WEI Jun-qi WANG Fang QIU Xiu-mei(Geological Research Center of Hubei Province, Wuhan 430034, Chin)
出处
《岩矿测试》
CSCD
北大核心
2017年第4期350-359,共10页
Rock and Mineral Analysis
基金
湖北省国土资源厅行业科研专项--LA-ICP-MS锆石U-Pb定年技术在鄂东南多金属矿床成因中的应用研究(ETZ2016A12)