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VACUUM ›› 2022, Vol. 59 ›› Issue (4): 12-17.doi: 10.13385/j.cnki.vacuum.2022.04.03

• Measurement and Control • Previous Articles     Next Articles

Study on the Calibration Factor in Quantitative Analysis of Trace Gases D2 by Mass Spectrometer

LI Hai-yang1,2, ZHANG Zhan-wen1, LIU Mei-fang1, LUAN Xu1, SHI Rui-ting1, YI Yong1   

  1. 1. Laser Fusion Research Center, CAEP, Mianyang 621900, China;
    2. School of Materials Science and Engineering, Southwest University of Science and Technology, Mianyang 621000, China
  • Received:2021-07-04 Online:2022-07-25 Published:2022-08-09

Abstract: Through the calibration chamber and vacuum tube installed on the intake pipe of the mass spectrometer, the trace gas with the same content range as the gas in microsphere can be obtained. The precision of quantitative analysis of trace gases by mass spectrometer and the effect of measured deuterium pressure on the calibration factor of D2 were studied. The results show that the precision of the quadrupole mass spectrometer is high, and the relative standard deviation of the 10 repeated measurements under different pressures is less than 0.004. The mass spectrometer has a high stability within one month after calibration, and it has a high accuracy with the quantitative analysis error is less than 1%. The concentration calibration factors for D2 and Ar varied no more than 3% within one year, while the pressure calibration factors for D2 varied more than 8% within one year. The pressure calibration factor η of D2 is inversely proportional to the pressure P1 of the measured deuterium gas, and there is a good linear relationship between η and logP1, which has a high stability in half a year.

Key words: Science and Engineering, Southwest University of Science and Technology, Mianyang 621000, China

CLC Number: 

  • O6-33
[1] 陈鹏玮, 厉彦忠, 丁岚, 等. 低温冷冻靶微管燃料充注流动冷凝特性[J]. 强激光与粒子束, 2017, 29(12): 17-27.
[2] SCHMITT M L, SHELBY J E, HALL M M.Preparation of hollow glass microspheres from sol-gel derived glass for application in hydrogen gas storage[J]. Journal of Non Crystalline Solids, 2006, 352(6/7): 626-631.
[3] HOPPE M L, STEINMAN D A.New developments in glass shells from SiGDP-residual gases, gas filling and tailored half-lives[J]. Fusion Science and Technology, 2007, 51(4): 606-610.
[4] LEE B H, LOPEZ-HI, FIKER F D, et al.An iodide-adduct high-resolution time-of-flight chemical-ionization mass spectrometer: application to atmospheric inorganic and organic compounds[J]. Environmental Science & Technology, 2014, 48(11): 6309-6317.
[5] DIAZ J A, PIERI D, WRIGHT K, et al.Unmanned aerial mass spectrometer systems for in-situ volcanic plume analysis[J]. Journal of the American Society for Mass Spectrometry, 2015, 26(2): 292-304.
[6] FRANZ H B, TRAINER M G, MALESPIN C A, et al.Initial SAM calibration gas experiments on Mars: quadrupole mass spectrometer results and implications[J]. Planetary and Space Science, 2017, 138: 44-54.
[7] TEOLIS B D, NIEMANN H, WAITE J, et al.A revised sensitivity model for Cassini INMS: results at Titan[J]. Space Science Reviews, 2015, 190(1): 47-84.
[8] TURNER P, TAYLOR S, CLARKE E, et al.Calibration effects during natural gas analysis using a quadrupole mass spectrometer[J]. TrAC Trends in Analytical Chemistry, 2004, 23(4): 281-287.
[9] BASFORD J A, BOECKMANN M D, ELLEFSON R E, et al.Recommended practice for the calibration of mass spectrometers for partial pressure analysis[J]. Journal of Vacuum Science & Technology A, 1993, 11(1): A22-A40.
[10] BLESSING J E, ELLEFSON R E, RABY B A, et al.Recommended practice for process sampling for partial pressure analysis[J]. Journal of Vacuum Science 8t Technology A, 2007, 25(1): 167-186.
[11] ELLEFSON R E.Methods for in situ QMS calibration for partial pressure and composition analysis[J]. Vacuum, 2014, 101: 423-432.
[12] GRANEY J R, KESLER S E.Factors affecting gas analysis of inclusion fluid by quadrupole mass spectrometry[J]. Geochim Cosmochim Acta, 1995, 59(19): 3977-3986.
[13] ANDRAWES F F, GIBSON E K.Release and analysis of gases from geological samples[J]. Am Mineral, 1979, 64: 453-463.
[14] WILLIAMS A E.Mass spectrometric analysis of volatiles in fluid inclusions: aliquot calibration valve to simulate inclusion rupture[J]. Chem Geol, 1996, 131(1-4): 155-165.
[15] NORMAN D I, SAWKINS F J.Analysis of volatiles in fluid inclusions by mass spectrometry[J]. Chem Geol, 1987, 61: 1-10.
[16] NEWMAN B D, NORMAN D I, GUNDIMEDA M, et al.Understanding the genesis of nonmarine calcite deposits through quadrupole mass spectrometric analysis of fluidinclusion gases[J]. Chem Geol, 1996, 132(1): 205-213.
[17] BLAMEY N J F, PARNELL J, MCMAHON S, et al. Evidence for methane in Martian meteorites[J]. Nat Commun, 2015, 6(1): 1-7.
[18] MORRISON C F.Partial pressure calibration for residual gas analyzers[J]. Journal of Vacuum Science and Technology, 1969, 6(1): 79-82.
[19] KENDALL B.Pulsed gas injection for on-line calibration of residual gas analyzers[J]. Journal of Vacuum Science & Technology A, 1987, 5(1): 143-148.
[20] SANTELER D J.Gas dynamics in residual gas analyzer calibration[J]. Journal of Vacuum Science & Technology A, 1987, 5(1): 129-133.
[21] 代彦伟. 微量气体超高灵敏度四极质谱检测分析[D]. 南京: 东南大学, 2016.
[22] SUN W, WU C, CHENG Y, et al.Study on calibrating the quadrupole mass spectrometers with gas mixture[J]. Measurement, 2020, 164: 108099.
[23] 王朝阳,张占文,李波,等.靶丸内混合气体的质谱法测量技术[J].强激光与粒子束,2005(5):711-714.
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