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Citation: LONG Tao, SHI Jian, BAO Ze-Min, Stephen W. J. Clement, ZHANG Yu-Hai, TIAN Di, LIU Dun-Yi. Influence of Edge Effect and X-Y Effect on Measurement Precision in Sensitive High Resolution Ion Microprobe IIe MC Oxygen Isotopes Analysis[J]. Chinese Journal of Analytical Chemistry, ;2015, 43(12): 1888-1894. doi: 10.11895/j.issn.0253-3820.150581 shu

Influence of Edge Effect and X-Y Effect on Measurement Precision in Sensitive High Resolution Ion Microprobe IIe MC Oxygen Isotopes Analysis

  • 1.

    1 Department of Instrumentation & Electrical Engineering, Jilin University, Changchun 130026, China;

  • Corresponding author: LONG Tao, 
  • Received Date: 21 July 2015
    Available Online: 11 September 2015

    Fund Project: 本文系国家重大科学仪器设备开发专项资助(No.2011YQ05006902) (No.2011YQ05006902)

  • Sensitive high resolution ion microprobe(SHRIMP) IIe MC has been widely used in the oxygen isotopes analysis of zircon, apatite, calcium carbonate, etc.. This study provides guidance for SHRIMP IIe MC high precision O-isotope analysis. We have established the secondary ion extraction structure of SIMION simulation model and discussed the cause and influencing factors of edge effect and X-Y effect in oxygen isotopes analysis. Higher δ18O precision can be reached by limiting O-isotope analysis position(the sample is located at the center of the mount within 10 mm diameter and the target surface roughness is less than 1μm). The internal precision of single spot of zircon δ18O is better than 0.15‰(1σ), with external precision better than 0.5%(95% confidence); the internal precision of the single analysis of Carbonate δ18O is better than 0.20‰(1σ), with external precision better than 0.6‰(95% confidence).
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    1. [1]

      1 Compston W, Pidgeon R T. Nature, 1986, 321(6072):766-769

    2. [2]

      2 Black L P, Kamo S L, Allen C M, Davis D W, Aleinikoff J N, Valley J W, Mundil R, Campbell I H, Korsch R J, Williams I S, Foudoulis C. Chem. Geol., 2004, 205(1-2):115-140

    3. [3]

      3 Liu D, Jolliff B L, Zeigler R A, Korotev R L, Wan Y, Xie H, Zhang Y, Dong C, Wang W. Earth. Planetary Sci. Lett., 2012, 319-320:277-286

    4. [4]

      4 White L T, Ireland T R. Chem. Geol., 2012, 306-307:78-91

    5. [5]

      5 Ushikubo T, Williford K H, Farquhar J, Johnston D T, Van Kranendonk M J, Valley J W. Chem. Geol., 2014, 383:86-99

    6. [6]

      6 Gao Y-Y, Li X-H, Griffin W L, O'Reilly S Y, Wang Y-F. Lithos, 2014, 192-195:180-191

    7. [7]

      7 Ireland T R, Schram N, Holden P, Lanc P, Ávila J, Armstrong R, Amelin Y, Latimore A, Corrigan D, Clement S, Foster J J, Compston W. Inter. J. Mass Spectrom., 2014, 359:26-37

    8. [8]

      8 Ickert R B, Hiess J, Williams I S, Holden P, Ireland T R, Lanc P, Schram N, Foster J J, Clement S W. Chem. Geol., 2008, 257(1-2):114-128

    9. [9]

      9 Rubatto D, Putlitz B, Gauthiez-Putallaz L, Crépisson C, Buick I S, Zheng Y-F. Chem. Geol., 2014, 380:84-96

    10. [10]

      10 Aubert M, Williams I S, Boljkovac K, Moffat I, Moncel M-H, Dufour E, Grün R. J. Archaeol. Sci., 2012, 39(10):3184-3194

    11. [11]

      11 Trotter J A, Williams I S, Barnes C R, Lécuyer C, Nicoll R S. Science, 2008, 321(5888):550-554

    12. [12]

      12 Martin L A J, Rubatto D, Crépisson C, Hermann J, Putlitz B, Vitale-Brovarone A. Chem. Geol., 2014, 374-375:25-36

    13. [13]

      13 Iles K A, Hergt J M, Sircombe K N, Woodhead J D, Bodorkos S, Williams I S. Chem. Geol., 2015, 402:140-152

    14. [14]

      14 Treble P, Schmitt A, Edwards R, McKeegan K, Harrison T, Grove M, Cheng H, Wang Y. Chem. Geol., 2007, 238(3-4):197-212

    15. [15]

      15 Kita N T, Ushikubo T, Fu B, Valley J W. Chem. Geol., 2009, 264(1-4):43-57

    16. [16]

      16 Whitehouse M J, Nemchin A A. Chem. Geol., 2009, 261(1-2):32-42

    17. [17]

      17 Matsuda H. Inter. J. Mass Spectrom. Ion Phy., 1974, 14(2):219-233

    18. [18]

      18 Clement S W J, Compston W, Newstead G. Proceedings of the International Conference on SIMS and Ion Microprobes, Muenster,Germany(unpublished ms.). 1977

    19. [19]

      19 ClementS W C, In:Benninghoven A, Evans C A, McKeegan K D, Storms H A,Werner H W.(Eds.). Secondary Ion Mass Spectrometry, SIMS VII. John Wiley & Sons, 1990:815-819

    20. [20]

      20 Ireland T R, Clement S, Compston W, Foster J J, Holden P, Jenkins B, Lanc P, Schram N, Williams I S. Australian J. Earth Sci., 2008, 55(6):937-954

    21. [21]

      21 Black L P, Kamo S L, Allen C M, Aleinikoff J N, Davis D W, Korsch R J, Foudoulis C. Chem. Geol., 2003, 200(1-2):155-170

    22. [22]

      22 Nasdala L, Hofmeister W, Mattinson J, Doerr W, Corfu F, Reiners P W, Kronz A, Norberg N, Kroener A. Geochim. Et Cosmochim. Acta, 2007, 71:A705

    23. [23]

      23 Nasdala L, Hofmeister W, Norberg N, Mattinson J M, Corfu F, Doerr W, Kamo S L, Kennedy A K, Kronz A, Reiners P W, Frei D, Kosler J, Wan Y S, Goetze J, Haeger T, Kroener A, Valley J W. Geostand. Geoanal. Res., 2008, 32(3):247-265

    24. [24]

      24 Wiedenbeck M, Hanchar J M, Peck W H, Sylvester P, Valley J, Whitehouse M, Kronz A, Morishita Y, Nasdala L, Fiebig J, Franchi I, Girard J P, Greenwood R C, Hinton R, Kita N, Mason P R D, Norman M, Ogasawara M, Piccoli P M, Rhede D, Satoh H, Schulz-Dobrick B, Skår O, Spicuzza M J, Terada K, Tindle A, Togashi S, Vennemann T, Xie Q, Zheng Y F. Geostand. Geoanal. Res., 2004, 28(1):9-39

    25. [25]

      25 Eiler J M, Graham C, Valley J W. Chem. Geol., 1997, 138(3-4):221-244

    26. [26]

      26 Schuhmacher M, Fernandes F, de Chambost E. App. Surf. Sci., 2004, 231-232:878-882

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