An algorithm for U–Pb geochronology by secondary ion mass spectrometry

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
P. Vermeesch
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引用次数: 3

Abstract

Abstract. Secondary ion mass spectrometry (SIMS) is a widely used technique for in situ U–Pb geochronology of accessory minerals. Existing algorithms for SIMS data reduction and error propagation make a number of simplifying assumptions that degrade the precision and accuracy of the resulting U–Pb dates. This paper uses an entirely new approach to SIMS data processing that introduces the following improvements over previous algorithms. First, it treats SIMS measurements as compositional data using log-ratio statistics. This means that, unlike existing algorithms, (a) its isotopic ratio estimates are guaranteed to be strictly positive numbers, (b) identical results are obtained regardless of whether data are processed as normal ratios (e.g. 206Pb / 238U) or reciprocal ratios (e.g. 238U / 206Pb), and (c) its uncertainty estimates account for the positive skewness of measured isotopic ratio distributions. Second, the new algorithm accounts for the Poisson noise that characterises secondary electron multiplier (SEM) detectors. By fitting the SEM signals using the method of maximum likelihood, it naturally handles low-intensity ion beams, in which zero-count signals are common. Third, the new algorithm casts the data reduction process in a matrix format and thereby captures all sources of systematic uncertainty. These include significant inter-spot error correlations that arise from the Pb / U–UO(2) / U calibration curve. The new algorithm has been implemented in a new software package called simplex. The simplex package was written in R and can be used either online, offline, or from the command line. The programme can handle SIMS data from both Cameca and SHRIMP instruments.
二次离子质谱法U-Pb年代学算法
摘要二次离子质谱法(SIMS)是一种广泛应用于伴生矿物原位U-Pb年代学的技术。现有的SIMS数据缩减和错误传播算法做出了许多简化的假设,这些假设降低了所得U-Pb日期的精度和准确性。本文采用了一种全新的SIMS数据处理方法,对以前的算法进行了以下改进。首先,它使用对数比统计将SIMS测量值视为组合数据。这意味着,与现有算法不同,(a)它的同位素比率估计保证是严格的正数,(b)无论数据是按正态比(例如206Pb / 238U)还是往复比(例如238U / 206Pb)处理,都能获得相同的结果,以及(c)它的不确定性估计解释了测量的同位素比率分布的正偏性。其次,新算法解释了二次电子倍增(SEM)探测器的泊松噪声。通过使用最大似然方法拟合SEM信号,它自然处理低强度离子束,其中零计数信号是常见的。第三,新算法将数据约简过程转换为矩阵格式,从而捕获系统不确定性的所有来源。其中包括由Pb / U - uo (2) / U校准曲线产生的显著点间误差相关性。该算法已在一个名为simplex的新软件包中实现。simplex包是用R编写的,可以在线、离线或从命令行使用。该程序可以处理Cameca和SHRIMP仪器的SIMS数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geochronology
Geochronology Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
0.00%
发文量
35
审稿时长
19 weeks
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