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一种用于腔衰荡光谱法水同位素测量中快速消除记忆效应的简单方法。

A simple method for rapid removal of the memory effect in cavity ring-down spectroscopy water isotope measurements.

作者信息

Keinan Jonathan, Goldsmith Yonaton

机构信息

Institute of Earth Sciences, The Hebrew University of Jerusalem, Jerusalem, Israel.

Geological Survey of Israel, Jerusalem, Israel.

出版信息

Rapid Commun Mass Spectrom. 2023 Oct 15;37(19):e9600. doi: 10.1002/rcm.9600.

DOI:10.1002/rcm.9600
PMID:37698151
Abstract

RATIONALE

The accuracy determined in the routine analysis of water isotopes (δ O, δ O, δ H) using cavity ring-down spectroscopy is greatly affected by the memory effect (ME), a sample-to-sample carryover that biases measurements. This study aims to develop a simple method that rapidly removes the ME.

METHODS

We developed a method, designed for the Picarro L2140-i, that removes the ME by injecting small amounts of water with an extreme isotopic value ("kick") in the opposite direction of the ME. We conducted 11 experiments to identify the optimal kick for pairs of isotopically enriched and depleted samples. Once quantified, the optimal kick was used to create an ME-free, unbiased calibration curve, which was verified using international and internal lab standards.

RESULTS

Our kick method removes the ME very efficiently in half the time it takes for experiments without a kick. The optimal number of kick injections required to minimize stabilization time between standards of different compositions is three injections of δ H ≈ -1000‰ water per a 100‰ difference between standards. Three runs of routine measurements using the kick method resulted in uncertainties of 0.03‰, 0.2‰, and 5 permeg for δ O, δ H, and O-excess, respectively.

CONCLUSIONS

This study demonstrates a new method for rapidly removing the ME. Our kick protocol is a readily available, cheap, and efficient approach to reduce instrumental bias and improve measurement accuracy.

摘要

原理

使用光腔衰荡光谱法对水同位素(δO、δO、δH)进行常规分析时所确定的准确性,会受到记忆效应(ME)的极大影响,记忆效应是一种样品间的残留,会使测量产生偏差。本研究旨在开发一种能快速消除记忆效应的简单方法。

方法

我们为Picarro L2140-i开发了一种方法,通过沿与记忆效应相反的方向注入少量具有极端同位素值的水(“冲击”)来消除记忆效应。我们进行了11次实验,以确定同位素富集和贫化样品对的最佳冲击量。一旦确定了最佳冲击量,就用它来创建一条无记忆效应、无偏差的校准曲线,并使用国际和内部实验室标准进行验证。

结果

我们的冲击方法能非常有效地消除记忆效应,所需时间仅为无冲击实验的一半。对于不同组成的标准之间每100‰的差异,使标准之间稳定时间最短所需的最佳冲击注入次数为三次δH≈ -1000‰的水。使用冲击方法进行的三轮常规测量中,δO、δH和过剩O的不确定度分别为0.03‰、0.2‰和5 ppm。

结论

本研究展示了一种快速消除记忆效应的新方法。我们的冲击方案是一种现成、廉价且高效的方法,可减少仪器偏差并提高测量准确性。

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A simple method for rapid removal of the memory effect in cavity ring-down spectroscopy water isotope measurements.一种用于腔衰荡光谱法水同位素测量中快速消除记忆效应的简单方法。
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