@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>