- classification: volcanic:andesitic
- physical-form: aliquot
- quantity (g): 1.9
- description: Geological Survey of Japan silicate reference material; andesite
- modified at 2020-05-15
Table 4. δ 65 Cu values of US Geological Survey (USGS) and Geological Survey of Japan (GSJ) silicate reference materials. Note that δ 65 Cu values are based on ERM-AE647. Makishima, Akio (2014)
(a) MC-ICPMS on MC-ICP-MS Finnigan, Neptune
Table 8. Grand average of Mo, Sb and W concentrations in basalt and andesite reference materials Akio Makishima & Eizo Nakamura (1999)
(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
Table 4b. Analytical results for lithium in silicate reference materials by TIMS Takuya Moriguti et al. (2004)
(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
(a) Titration_procedures of Yokoyama and Nakamura (2002)
Table 4. Analytical Results for Sulfur (μg g-1) in Standard Reference Materials and in Smithsonian Reference Allende Powder by ID-FI-ICPMS Akio Makishima & Eizo Nakamura (2001)
1: PCC-1 2: JP-1 3: BCR-1 4: BHVO-1 5: JB-1b 6: JB-2 7: JB-3 powder 8: JA-1 9: JA-2 10: JA-3 powder 11: Allende (T)
(a) HR-ICPMS on HR-ICPMS Finningan, Element
Table 5-6. Analytical results for Ge, As, Se and Te in silicate reference materials Akio Makishima & Eizo Nakamura (2009)
(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
Table 3. Analytical results for Cd, In, Tl and Bi obtained in this study Akio Makishima et al. (2011)
(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on Q-ICPMS Agilent 7500cs
Table 7. Concentrations of Zr, Nb, Hf and Ta in silicate reference materials Akio Makishima et al. (1999)
(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
Tables 6. Trace element concentrations in AGV-1, JA-1, JA-2 and JA-3 Akio Makishima & Eizo Nakamura (1997)
(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
Table 8.Analytical results for andesite reference materials in this study Makishima, Akio & Nakamura, E. (2006)
(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
Table 4-5. Analytical Results for Boron (μg g-1) in Standard Rocks and Allende Meteorites by ID-FI-ICPMS Akio Makishima et al. (1997)
1: PCC-1 2: BCR-1 3: AGV-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: Allende-12
(a) B_procedures of Makishima et al. (1997) on ICPMS Yokogawa PMS2000
Table 2-3. 176Hf/177Hf in reference materials without and with spike and concentration if Hf (mg/g) in silicate reference materials Lu et al. (2007)
(a) Hf isotopes_procedures of Lu et al. (2007) on MC-ICP-MS Finnigan, Neptune
Table 4a. Analytical results for lithium in silicate reference materials by ICP-MS Takuya Moriguti et al. (2004)
(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on ICPMS Yokogawa PMS2000
Table 4. δ56Fe values of USGS and GSJ silicate reference materials and carbonaceous chondrites Akio Makishima (2013)
1: BHVO-1 2: AGV-1 3: PCC-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: JP-1 11: Orgueil 12: Murchison 13: Allende (T)
(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
Table 2 Sulfur concentrations for silicate reference materials and carbonaceous chondrites determined by ID-HR-MC-ICPMS and in references Makishima, Akio & Nakamura, Eizo (2012)
1: JB-2 2: JB-3 powder 3: JA-2 4: JA-3 powder 5: JP-1 6: BCR-2 7: BHVO-1 8: AGV-1 9: Murchison 10: Allende-12 11: Dar al Gani 521 12: Dar al Gani 194
(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune
Table 4 TiO2 content in silicate reference materials obtained by ID-FI-HR-ICPMS Akio Makishima & Eizo Nakamura (2000)
(a) HR-ICPMS on HR-ICPMS Finningan, Element
(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
@article{20170620122603-026842,
author={{JA-3 powder}},
title={Aliquot with quantity 1.9 g at \nolinkurl{/ISEI/main/PML Weighing Lab/}},
journal={\href{http://dream.misasa.okayama-u.ac.jp/?q=20170620122603-026842}{DREAM}},
volume={20},
pages={20170620122603-026842},
year={2017},
url={http://dream.misasa.okayama-u.ac.jp/?q=20170620122603-026842},
}<?xml version="1.0" encoding="UTF-8"?>
<acquisitions>
<acquisition>
<global_id>20191007144604-520638</global_id>
<name>JA-3_B</name>
<device>ICPMS Yokogawa PMS2000</device>
<technique>B_procedures of Makishima et al. (1997)</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>B</nickname>
<value>26.4</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20170302124518-005148</global_id>
<name>ref-gl-ja3</name>
<device>Q-ICPMS Agilent 7500cs</device>
<technique>ICPMS with isotope dilution and internal standardization</technique>
<operator></operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>TiO2</nickname>
<value>0.624</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Al2O3</nickname>
<value>15.25</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Fe2O3T</nickname>
<value>5.92</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>MnO</nickname>
<value>0.103</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>MgO</nickname>
<value>3.53</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>CaO</nickname>
<value>5.98</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Na2O</nickname>
<value>3.06</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>K2O</nickname>
<value>1.43</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>P2O5</nickname>
<value>0.107</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Li</nickname>
<value>12.4</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Be</nickname>
<value>0.613</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>B</nickname>
<value>26.1</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sc</nickname>
<value>17.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>V</nickname>
<value>164.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Co</nickname>
<value>16.7</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ni</nickname>
<value>28.6</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cu</nickname>
<value>40.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Zn</nickname>
<value>73.7</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Rb</nickname>
<value>33.2</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sr</nickname>
<value>272.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Y</nickname>
<value>16.5</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Zr</nickname>
<value>105.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nb</nickname>
<value>2.86</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Mo</nickname>
<value>1.6</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>In</nickname>
<value>0.0401</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sn</nickname>
<value>0.988</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sb</nickname>
<value>0.28</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cs</nickname>
<value>1.99</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ba</nickname>
<value>309.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>La</nickname>
<value>8.88</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ce</nickname>
<value>21.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pr</nickname>
<value>2.75</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nd</nickname>
<value>12.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sm</nickname>
<value>3.03</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Eu</nickname>
<value>0.775</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Gd</nickname>
<value>3.33</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tb</nickname>
<value>0.525</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Dy</nickname>
<value>3.34</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ho</nickname>
<value>0.699</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Er</nickname>
<value>2.03</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tm</nickname>
<value>0.296</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Yb</nickname>
<value>1.99</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Lu</nickname>
<value>0.305</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Hf</nickname>
<value>3.19</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ta</nickname>
<value>0.22</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tl</nickname>
<value>0.197</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pb</nickname>
<value>7.37</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Bi</nickname>
<value>0.0391</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Th</nickname>
<value>3.27</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>U</nickname>
<value>1.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ga</nickname>
<value>15.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191008091437-122512</global_id>
<name>JA-3 powder</name>
<device>ICPMS Yokogawa PMS2000</device>
<technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>Rb</nickname>
<value>38.1</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sr</nickname>
<value>286.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Y</nickname>
<value>22.4</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cs</nickname>
<value>2.08</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ba</nickname>
<value>314.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pb</nickname>
<value>8.04</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Th</nickname>
<value>3.51</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>U</nickname>
<value>1.05</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>La</nickname>
<value>9.48</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ce</nickname>
<value>22.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pr</nickname>
<value>2.96</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nd</nickname>
<value>12.7</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sm</nickname>
<value>3.18</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Eu</nickname>
<value>0.815</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Gd</nickname>
<value>3.21</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tb</nickname>
<value>0.546</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Dy</nickname>
<value>3.41</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ho</nickname>
<value>0.734</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Er</nickname>
<value>2.02</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tm</nickname>
<value>0.305</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Yb</nickname>
<value>2.11</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Lu</nickname>
<value>0.321</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191008134323-252329</global_id>
<name>JA-3 powder_TiO2</name>
<device>HR-ICPMS Finningan, Element</device>
<technique>HR-ICPMS</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>TiO2</nickname>
<value>0.643</value>
<unit>%</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191008113359-187332</global_id>
<name>JA-3 powder_W-Sb_Mo</name>
<device>ICPMS Yokogawa PMS2000</device>
<technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Mo</nickname>
<value>1.56</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sb</nickname>
<value>0.269</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>W</nickname>
<value>7.05</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191023150858-777017</global_id>
<name>JA-3 powder_Hf</name>
<device>MC-ICP-MS Finnigan, Neptune</device>
<technique>Hf isotopes_procedures of Lu et al. (2007)</technique>
<operator>Lucy</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Hf</nickname>
<value>3.21</value>
<unit>ppm</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Hf176zHf177</nickname>
<value>0.28307</value>
<unit></unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191015113423-430051</global_id>
<name>JA-3 powder_Li</name>
<device>ICPMS Yokogawa PMS2000</device>
<technique>Li isotopes_procedures of Moriguti and Nakamura (1998)</technique>
<operator>Moriguti</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Li</nickname>
<value>13.4</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191002151233-156110</global_id>
<name>JA-3 powder_Bi-Tl-In-Cd</name>
<device>Q-ICPMS Agilent 7500cs</device>
<technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Cd</nickname>
<value>0.085</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>In</nickname>
<value>0.04</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tl</nickname>
<value>0.21</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Bi</nickname>
<value>0.037</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191003102339-988506</global_id>
<name>JA-3 powder_d66Zn</name>
<device>ICPMS Thermo-Fisher Neptune</device>
<technique>MC-ICPMS</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>d66Zn</nickname>
<value>-0.11</value>
<unit>permil</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191003113551-474772</global_id>
<name>JA-3 powder_d56Fe</name>
<device>ICPMS Thermo-Fisher Neptune</device>
<technique>MC-ICPMS</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>d56Fe</nickname>
<value>0.09</value>
<unit>permil</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191004111800-862002</global_id>
<name>JA-3 powder_Ge-As-Se-Te</name>
<device>Q-ICPMS Agilent 7500cs</device>
<technique>ICPMS with isotope dilution and internal standardization</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>Ge</nickname>
<value>1.23</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>As</nickname>
<value>3.79</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Se</nickname>
<value>0.053</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Te</nickname>
<value>0.0035</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191018155015-993443</global_id>
<name>JA-3 powder_TE_Max2006</name>
<device>Q-ICPMS Agilent 7500cs</device>
<technique>ICPMS with isotope dilution and internal standardization</technique>
<operator></operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Th</nickname>
<value>3.27</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pb</nickname>
<value>7.37</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nd</nickname>
<value>12.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sr</nickname>
<value>272.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Li</nickname>
<value>12.4</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Rb</nickname>
<value>33.2</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>La</nickname>
<value>8.88</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cs</nickname>
<value>1.99</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sm</nickname>
<value>3.03</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ba</nickname>
<value>309.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ni</nickname>
<value>28.6</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>U</nickname>
<value>1.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Be</nickname>
<value>0.613</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ce</nickname>
<value>21.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>In</nickname>
<value>0.0401</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>K2O</nickname>
<value>1.43</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Fe2O3T</nickname>
<value>5.92</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Na2O</nickname>
<value>3.06</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Lu</nickname>
<value>0.305</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>MgO</nickname>
<value>3.53</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Y</nickname>
<value>16.5</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Al2O3</nickname>
<value>15.25</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cu</nickname>
<value>40.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tl</nickname>
<value>0.197</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pr</nickname>
<value>2.75</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Zn</nickname>
<value>73.7</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Co</nickname>
<value>16.7</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sc</nickname>
<value>17.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Bi</nickname>
<value>0.0391</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>MnO</nickname>
<value>0.103</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>V</nickname>
<value>164.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>CaO</nickname>
<value>5.98</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>P2O5</nickname>
<value>0.107</value>
<unit>cg/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Eu</nickname>
<value>0.775</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Gd</nickname>
<value>3.33</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tb</nickname>
<value>0.525</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Dy</nickname>
<value>3.34</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Er</nickname>
<value>2.03</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ho</nickname>
<value>0.699</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Yb</nickname>
<value>1.99</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Tm</nickname>
<value>0.296</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ga</nickname>
<value>15.3</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191009100320-384880</global_id>
<name>JA-3 powder_Cr-Ni-Cu-Zn</name>
<device>HR-ICPMS Finningan, Element</device>
<technique>HR-ICPMS</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>Cr</nickname>
<value>67.6</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ni</nickname>
<value>33.8</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cu</nickname>
<value>46.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Zn</nickname>
<value>73.8</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191008105613-122930</global_id>
<name>JA-3 powder_Ta-Hf-Nb-Zr</name>
<device>ICPMS Yokogawa PMS2000</device>
<technique>Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006)</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Zr</nickname>
<value>111.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nb</nickname>
<value>2.86</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Hf</nickname>
<value>3.18</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ta</nickname>
<value>0.236</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191008141043-457438</global_id>
<name>JA-3 powder_S</name>
<device>HR-ICPMS Finningan, Element</device>
<technique>HR-ICPMS</technique>
<operator>Max</operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>S</nickname>
<value>226.0</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191219094725-718213</global_id>
<name>JA-3 powder</name>
<device>MC-ICP-MS Finnigan, Neptune</device>
<technique>MC-ICPMS</technique>
<operator/>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description/>
<chemistries>
<analysis>
<nickname>d65Cu</nickname>
<value>0.11</value>
<unit>permil</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20191223153531-773978</global_id>
<name>JA-3_S (Max, 2012)</name>
<device>ICPMS Thermo-Fisher Neptune</device>
<technique>HR-ICPMS</technique>
<operator></operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>S</nickname>
<value>214.0</value>
<unit>ug/g</unit>
<uncertainty>4.0</uncertainty>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20200210104523-526292</global_id>
<name>JA-3_d7Li</name>
<device>TIMS Thermo-Fisher MAT261</device>
<technique>Li isotopes_procedures of Moriguti and Nakamura (1998)</technique>
<operator></operator>
<sample_global_id>20170620122603-026842</sample_global_id>
<sample_name>JA-3 powder</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>Li</nickname>
<value>13.2</value>
<unit>ug/g</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
</acquisitions>
place quantity