@article{20181219151335-249676,
author={{en-px-K002-b(traceDi@8)}},
title={Fraction at \nolinkurl{/ISEI/main/1270/Hayabusa 1/mount-K002-b/}},
journal={\href{http://dream.misasa.okayama-u.ac.jp/?q=20181219151335-249676}{DREAM}},
volume={20},
pages={20181219151335-249676},
year={2018},
url={http://dream.misasa.okayama-u.ac.jp/?q=20181219151335-249676},
}
<?xml version="1.0" encoding="UTF-8"?>
<acquisitions>
<acquisition>
<global_id>20120224165505-288-138</global_id>
<name>In-situ trace for Di@8</name>
<device>SIMS Cameca ims-5f</device>
<technique>SIMS</technique>
<operator/>
<sample_global_id>20181219151335-249676</sample_global_id>
<sample_name>en-px-K002-b(traceDi@8)</sample_name>
<description/>
<spot>
<global_id>20120224170312-470-199</global_id>
<attachment_file_global_id>20110517093750-174-768</attachment_file_global_id>
<attachment_file_path>/pub/system/attachment_files/0003/2908/mount-K002-b_002.jpg?1305625070</attachment_file_path>
<x_image>-3.0</x_image>
<y_image>1.0</y_image>
<x_overpic>47.0</x_overpic>
<y_overpic>41.0</y_overpic>
<x_vs>4.844950000000001</x_vs>
<y_vs>21.15689943</y_vs>
</spot>
<chemistries>
<analysis>
<nickname>TiO2</nickname>
<value>5800.0</value>
<unit>ug/g</unit>
<uncertainty>270.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Al2O3</nickname>
<value>7600.0</value>
<unit>ug/g</unit>
<uncertainty>54.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cr2O3</nickname>
<value>9000.0</value>
<unit>ug/g</unit>
<uncertainty>56.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>NiO</nickname>
<value>310.0</value>
<unit>ug/g</unit>
<uncertainty>160.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>MnO</nickname>
<value>2700.0</value>
<unit>ug/g</unit>
<uncertainty>29.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>CaO</nickname>
<value>260000.0</value>
<unit>ug/g</unit>
<uncertainty>1800.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Na2O</nickname>
<value>5800.0</value>
<unit>ug/g</unit>
<uncertainty>13.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>K2O</nickname>
<value>12.0</value>
<unit>ug/g</unit>
<uncertainty>1.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>H2O</nickname>
<value>620.0</value>
<unit>ug/g</unit>
<uncertainty>18.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Li</nickname>
<value>0.22</value>
<unit>ug/g</unit>
<uncertainty>0.02</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>F</nickname>
<value>11.0</value>
<unit>ug/g</unit>
<uncertainty>1.0</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Cl</nickname>
<value>5.9</value>
<unit>ug/g</unit>
<uncertainty>0.5</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sr</nickname>
<value>11.0</value>
<unit>ug/g</unit>
<uncertainty>0.3</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Y</nickname>
<value>12.0</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Zr</nickname>
<value>91.0</value>
<unit>ug/g</unit>
<uncertainty>0.4</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nb</nickname>
<value>1.1</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ba</nickname>
<value>1.8</value>
<unit>ug/g</unit>
<uncertainty>0.2</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>La</nickname>
<value>0.62</value>
<unit>ug/g</unit>
<uncertainty>0.06</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Ce</nickname>
<value>1.7</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Pr</nickname>
<value>0.29</value>
<unit>ug/g</unit>
<uncertainty>0.03</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Nd</nickname>
<value>1.9</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Sm</nickname>
<value>0.93</value>
<unit>ug/g</unit>
<uncertainty>0.15</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Eu</nickname>
<value>0.13</value>
<unit>ug/g</unit>
<uncertainty>0.02</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Gd</nickname>
<value>1.1</value>
<unit>ug/g</unit>
<uncertainty>0.4</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Dy</nickname>
<value>1.7</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Er</nickname>
<value>1.4</value>
<unit>ug/g</unit>
<uncertainty>0.2</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Yb</nickname>
<value>1.5</value>
<unit>ug/g</unit>
<uncertainty>0.1</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Lu</nickname>
<value>0.21</value>
<unit>ug/g</unit>
<uncertainty>0.05</uncertainty>
<label/>
<info/>
</analysis>
<analysis>
<nickname>Hf</nickname>
<value>3.5</value>
<unit>ug/g</unit>
<uncertainty>0.4</uncertainty>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
<acquisition>
<global_id>20181219151457-242642</global_id>
<name>in-situ SiO2@8</name>
<device>EPMA JEOL JXA-8800R</device>
<technique>EPMA</technique>
<operator></operator>
<sample_global_id>20181219151335-249676</sample_global_id>
<sample_name>en-px-K002-b(traceDi@8)</sample_name>
<description></description>
<chemistries>
<analysis>
<nickname>SiO2</nickname>
<value>54.08</value>
<unit>%</unit>
<uncertainty/>
<label/>
<info/>
</analysis>
</chemistries>
</acquisition>
</acquisitions>