Calibration of Nu-Instruments Noblesse multicollector mass spectrometers for argon isotopic measurements using a newly developed reference gas

被引:36
作者
Coble, Matthew A. [1 ]
Grove, Marty [1 ]
Calvert, Andrew T. [2 ]
机构
[1] Stanford Univ, Dept Geol & Environm Sci, Stanford, CA 94305 USA
[2] US Geol Survey, Menlo Pk, CA 94025 USA
关键词
Multicollection; Detector calibration; Noble gas; 40Ar/39Ar geochronology; Nu Instruments Noblesse; Detector linearity; K-FELDSPAR; AGES; REDETERMINATION; ABUNDANCES; RATIOS; SYSTEM; OXYGEN;
D O I
10.1016/j.chemgeo.2011.09.003
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
The greatest challenge limiting 40Ar/39Ar multicollection measurements is the availability of appropriate standard gasses to intercalibrate detectors. In particular, use of zoom lens ion-optics to steer and focus ion beams into a fixed detector array (i.e. Nu Instruments Noblesse) makes intercalibration of multiple detectors challenging because different ion-optic tuning conditions are required for optimal peak shape and sensitivity at different mass stations. We have found that detector efficiency and mass discrimination are affected by changes in ion-optic tuning parameters. Reliance upon an atmospheric Ar standard to calibrate the Noblesse is problematic because there is no straightforward way to relate atmospheric 40Ar and Ar-36 to measurements of 40Ar and 39Ar if they are measured on separate detectors. After exploring alternative calibration approaches, we have concluded that calibration of the Noblesse is best performed using exactly the same source, detector, and ion-optic tuning settings as those used in routine Ar-49/39Ar analysis. To accomplish this, we have developed synthetic reference gasses containing 40Ar, 39Ar and Ar-38 produced by mixing gasses derived from neutron-irradiated sanidine with an enriched Ar-38 spike. We present a new method for calibrating the Noblesse based on use of both atmospheric Ar and the synthetic reference gasses. By combining atmospheric Ar and synthetic reference gas in different ways, we can directly measure Ar-46/39Ar, Ar-38/39Ar, and Ar-36/39Ar correction factors over ratios that vary from 0.5 to 460. These correction factors are reproducible to better than +/- 0.5 parts per thousand (2 sigma standard error) over intervals spanning similar to 24 h but can vary systematically by similar to 4% over 2 weeks of continuous use when electron multiplier settings are held constant. Monitoring this variation requires daily calibration of the instrument Application of the calibration method to 40Ar/39Ar multicollection measurements of widely used sanidine reference materials ACs-2, FCs-2, and TCs-2 demonstrate that calculated 40Ar*/39Ar(K) can be accurately corrected to yield model 40Ar/39Ar ages consistent with those reported by Earthtime 40Ar/39Ar laboratories. Replicate analyses of 8-12 single-crystal sanidine ages are reproduced to within 1-2 parts per thousand (2 sigma standard error) under optimal analytical conditions. This calibration technique is applicable over a wide range of isotopic ratios and signal sizes. Finally, the reference gas has the added advantage of facilitating straightforward characterization of electron multiplier dead time over a wide dynamic range. (C) 2011 Elsevier B.V. All rights reserved.
引用
收藏
页码:75 / 87
页数:13
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