Skip to content
Snippets Groups Projects
Commit c43be0d2 authored by Jihee Kim's avatar Jihee Kim
Browse files

Added materials and elements XML files

parents
No related branches found
No related tags found
2 merge requests!3WIP: Detector Template XML file,!1Draft: Add Detector Template
Hide whitespace changes
Inline Side-by-side
template/elements.xml 0 → 100644
+ 884
0
View file @ c43be0d2
<materials>
<element Z="89" formula="Ac" name="Ac" >
<atom type="A" unit="g/mol" value="227.028" />
</element>
<material formula="Ac" name="Actinium" state="solid" >
<RL type="X0" unit="cm" value="0.601558" />
<NIL type="lambda" unit="cm" value="21.2048" />
<D type="density" unit="g/cm3" value="10.07" />
<composite n="1" ref="Ac" />
</material>
<element Z="47" formula="Ag" name="Ag" >
<atom type="A" unit="g/mol" value="107.868" />
</element>
<material formula="Ag" name="Silver" state="solid" >
<RL type="X0" unit="cm" value="0.854292" />
<NIL type="lambda" unit="cm" value="15.8546" />
<D type="density" unit="g/cm3" value="10.5" />
<composite n="1" ref="Ag" />
</material>
<element Z="13" formula="Al" name="Al" >
<atom type="A" unit="g/mol" value="26.9815" />
</element>
<material formula="Al" name="Aluminum" state="solid" >
<RL type="X0" unit="cm" value="8.89632" />
<NIL type="lambda" unit="cm" value="38.8766" />
<D type="density" unit="g/cm3" value="2.699" />
<composite n="1" ref="Al" />
</material>
<element Z="95" formula="Am" name="Am" >
<atom type="A" unit="g/mol" value="243.061" />
</element>
<material formula="Am" name="Americium" state="solid" >
<RL type="X0" unit="cm" value="0.42431" />
<NIL type="lambda" unit="cm" value="15.9812" />
<D type="density" unit="g/cm3" value="13.67" />
<composite n="1" ref="Am" />
</material>
<element Z="18" formula="Ar" name="Ar" >
<atom type="A" unit="g/mol" value="39.9477" />
</element>
<material formula="Ar" name="Argon" state="gas" >
<RL type="X0" unit="cm" value="11762.1" />
<NIL type="lambda" unit="cm" value="71926" />
<D type="density" unit="g/cm3" value="0.00166201" />
<composite n="1" ref="Ar" />
</material>
<element Z="33" formula="As" name="As" >
<atom type="A" unit="g/mol" value="74.9216" />
</element>
<material formula="As" name="Arsenic" state="solid" >
<RL type="X0" unit="cm" value="2.0838" />
<NIL type="lambda" unit="cm" value="25.7324" />
<D type="density" unit="g/cm3" value="5.73" />
<composite n="1" ref="As" />
</material>
<element Z="85" formula="At" name="At" >
<atom type="A" unit="g/mol" value="209.987" />
</element>
<material formula="At" name="Astatine" state="solid" >
<RL type="X0" unit="cm" value="0.650799" />
<NIL type="lambda" unit="cm" value="22.3202" />
<D type="density" unit="g/cm3" value="9.32" />
<composite n="1" ref="At" />
</material>
<element Z="79" formula="Au" name="Au" >
<atom type="A" unit="g/mol" value="196.967" />
</element>
<material formula="Au" name="Gold" state="solid" >
<RL type="X0" unit="cm" value="0.334436" />
<NIL type="lambda" unit="cm" value="10.5393" />
<D type="density" unit="g/cm3" value="19.32" />
<composite n="1" ref="Au" />
</material>
<element Z="5" formula="B" name="B" >
<atom type="A" unit="g/mol" value="10.811" />
</element>
<material formula="B" name="Boron" state="solid" >
<RL type="X0" unit="cm" value="22.2307" />
<NIL type="lambda" unit="cm" value="32.2793" />
<D type="density" unit="g/cm3" value="2.37" />
<composite n="1" ref="B" />
</material>
<element Z="56" formula="Ba" name="Ba" >
<atom type="A" unit="g/mol" value="137.327" />
</element>
<material formula="Ba" name="Barium" state="solid" >
<RL type="X0" unit="cm" value="2.37332" />
<NIL type="lambda" unit="cm" value="51.6743" />
<D type="density" unit="g/cm3" value="3.5" />
<composite n="1" ref="Ba" />
</material>
<element Z="4" formula="Be" name="Be" >
<atom type="A" unit="g/mol" value="9.01218" />
</element>
<material formula="Be" name="Beryllium" state="solid" >
<RL type="X0" unit="cm" value="35.276" />
<NIL type="lambda" unit="cm" value="39.4488" />
<D type="density" unit="g/cm3" value="1.848" />
<composite n="1" ref="Be" />
</material>
<element Z="83" formula="Bi" name="Bi" >
<atom type="A" unit="g/mol" value="208.98" />
</element>
<material formula="Bi" name="Bismuth" state="solid" >
<RL type="X0" unit="cm" value="0.645388" />
<NIL type="lambda" unit="cm" value="21.3078" />
<D type="density" unit="g/cm3" value="9.747" />
<composite n="1" ref="Bi" />
</material>
<element Z="97" formula="Bk" name="Bk" >
<atom type="A" unit="g/mol" value="247.07" />
</element>
<material formula="Bk" name="Berkelium" state="solid" >
<RL type="X0" unit="cm" value="0.406479" />
<NIL type="lambda" unit="cm" value="15.6902" />
<D type="density" unit="g/cm3" value="14" />
<composite n="1" ref="Bk" />
</material>
<element Z="35" formula="Br" name="Br" >
<atom type="A" unit="g/mol" value="79.9035" />
</element>
<material formula="Br" name="Bromine" state="gas" >
<RL type="X0" unit="cm" value="1615.12" />
<NIL type="lambda" unit="cm" value="21299" />
<D type="density" unit="g/cm3" value="0.0070721" />
<composite n="1" ref="Br" />
</material>
<element Z="6" formula="C" name="C" >
<atom type="A" unit="g/mol" value="12.0107" />
</element>
<material formula="C" name="Carbon" state="solid" >
<RL type="X0" unit="cm" value="21.3485" />
<NIL type="lambda" unit="cm" value="40.1008" />
<D type="density" unit="g/cm3" value="2" />
<composite n="1" ref="C" />
</material>
<element Z="20" formula="Ca" name="Ca" >
<atom type="A" unit="g/mol" value="40.078" />
</element>
<material formula="Ca" name="Calcium" state="solid" >
<RL type="X0" unit="cm" value="10.4151" />
<NIL type="lambda" unit="cm" value="77.3754" />
<D type="density" unit="g/cm3" value="1.55" />
<composite n="1" ref="Ca" />
</material>
<element Z="48" formula="Cd" name="Cd" >
<atom type="A" unit="g/mol" value="112.411" />
</element>
<material formula="Cd" name="Cadmium" state="solid" >
<RL type="X0" unit="cm" value="1.03994" />
<NIL type="lambda" unit="cm" value="19.46" />
<D type="density" unit="g/cm3" value="8.65" />
<composite n="1" ref="Cd" />
</material>
<element Z="58" formula="Ce" name="Ce" >
<atom type="A" unit="g/mol" value="140.115" />
</element>
<material formula="Ce" name="Cerium" state="solid" >
<RL type="X0" unit="cm" value="1.19506" />
<NIL type="lambda" unit="cm" value="27.3227" />
<D type="density" unit="g/cm3" value="6.657" />
<composite n="1" ref="Ce" />
</material>
<element Z="98" formula="Cf" name="Cf" >
<atom type="A" unit="g/mol" value="251.08" />
</element>
<material formula="Cf" name="Californium" state="solid" >
<RL type="X0" unit="cm" value="0.568328" />
<NIL type="lambda" unit="cm" value="22.085" />
<D type="density" unit="g/cm3" value="10" />
<composite n="1" ref="Cf" />
</material>
<element Z="17" formula="Cl" name="Cl" >
<atom type="A" unit="g/mol" value="35.4526" />
</element>
<material formula="Cl" name="Chlorine" state="gas" >
<RL type="X0" unit="cm" value="6437.34" />
<NIL type="lambda" unit="cm" value="38723.9" />
<D type="density" unit="g/cm3" value="0.00299473" />
<composite n="1" ref="Cl" />
</material>
<element Z="96" formula="Cm" name="Cm" >
<atom type="A" unit="g/mol" value="247.07" />
</element>
<material formula="Cm" name="Curium" state="solid" >
<RL type="X0" unit="cm" value="0.428706" />
<NIL type="lambda" unit="cm" value="16.2593" />
<D type="density" unit="g/cm3" value="13.51" />
<composite n="1" ref="Cm" />
</material>
<element Z="27" formula="Co" name="Co" >
<atom type="A" unit="g/mol" value="58.9332" />
</element>
<material formula="Co" name="Cobalt" state="solid" >
<RL type="X0" unit="cm" value="1.53005" />
<NIL type="lambda" unit="cm" value="15.2922" />
<D type="density" unit="g/cm3" value="8.9" />
<composite n="1" ref="Co" />
</material>
<element Z="24" formula="Cr" name="Cr" >
<atom type="A" unit="g/mol" value="51.9961" />
</element>
<material formula="Cr" name="Chromium" state="solid" >
<RL type="X0" unit="cm" value="2.0814" />
<NIL type="lambda" unit="cm" value="18.1933" />
<D type="density" unit="g/cm3" value="7.18" />
<composite n="1" ref="Cr" />
</material>
<element Z="55" formula="Cs" name="Cs" >
<atom type="A" unit="g/mol" value="132.905" />
</element>
<material formula="Cs" name="Cesium" state="solid" >
<RL type="X0" unit="cm" value="4.4342" />
<NIL type="lambda" unit="cm" value="95.317" />
<D type="density" unit="g/cm3" value="1.873" />
<composite n="1" ref="Cs" />
</material>
<element Z="29" formula="Cu" name="Cu" >
<atom type="A" unit="g/mol" value="63.5456" />
</element>
<material formula="Cu" name="Copper" state="solid" >
<RL type="X0" unit="cm" value="1.43558" />
<NIL type="lambda" unit="cm" value="15.5141" />
<D type="density" unit="g/cm3" value="8.96" />
<composite n="1" ref="Cu" />
</material>
<element Z="66" formula="Dy" name="Dy" >
<atom type="A" unit="g/mol" value="162.497" />
</element>
<material formula="Dy" name="Dysprosium" state="solid" >
<RL type="X0" unit="cm" value="0.85614" />
<NIL type="lambda" unit="cm" value="22.2923" />
<D type="density" unit="g/cm3" value="8.55" />
<composite n="1" ref="Dy" />
</material>
<element Z="68" formula="Er" name="Er" >
<atom type="A" unit="g/mol" value="167.256" />
</element>
<material formula="Er" name="Erbium" state="solid" >
<RL type="X0" unit="cm" value="0.788094" />
<NIL type="lambda" unit="cm" value="21.2923" />
<D type="density" unit="g/cm3" value="9.066" />
<composite n="1" ref="Er" />
</material>
<element Z="63" formula="Eu" name="Eu" >
<atom type="A" unit="g/mol" value="151.964" />
</element>
<material formula="Eu" name="Europium" state="solid" >
<RL type="X0" unit="cm" value="1.41868" />
<NIL type="lambda" unit="cm" value="35.6178" />
<D type="density" unit="g/cm3" value="5.243" />
<composite n="1" ref="Eu" />
</material>
<element Z="9" formula="F" name="F" >
<atom type="A" unit="g/mol" value="18.9984" />
</element>
<material formula="F" name="Fluorine" state="gas" >
<RL type="X0" unit="cm" value="20838.2" />
<NIL type="lambda" unit="cm" value="59094.3" />
<D type="density" unit="g/cm3" value="0.00158029" />
<composite n="1" ref="F" />
</material>
<element Z="26" formula="Fe" name="Fe" >
<atom type="A" unit="g/mol" value="55.8451" />
</element>
<material formula="Fe" name="Iron" state="solid" >
<RL type="X0" unit="cm" value="1.75749" />
<NIL type="lambda" unit="cm" value="16.959" />
<D type="density" unit="g/cm3" value="7.874" />
<composite n="1" ref="Fe" />
</material>
<element Z="87" formula="Fr" name="Fr" >
<atom type="A" unit="g/mol" value="223.02" />
</element>
<material formula="Fr" name="Francium" state="solid" >
<RL type="X0" unit="cm" value="6.18826" />
<NIL type="lambda" unit="cm" value="212.263" />
<D type="density" unit="g/cm3" value="1" />
<composite n="1" ref="Fr" />
</material>
<element Z="31" formula="Ga" name="Ga" >
<atom type="A" unit="g/mol" value="69.7231" />
</element>
<material formula="Ga" name="Gallium" state="solid" >
<RL type="X0" unit="cm" value="2.1128" />
<NIL type="lambda" unit="cm" value="24.3351" />
<D type="density" unit="g/cm3" value="5.904" />
<composite n="1" ref="Ga" />
</material>
<element Z="64" formula="Gd" name="Gd" >
<atom type="A" unit="g/mol" value="157.252" />
</element>
<material formula="Gd" name="Gadolinium" state="solid" >
<RL type="X0" unit="cm" value="0.947208" />
<NIL type="lambda" unit="cm" value="23.9377" />
<D type="density" unit="g/cm3" value="7.9004" />
<composite n="1" ref="Gd" />
</material>
<element Z="32" formula="Ge" name="Ge" >
<atom type="A" unit="g/mol" value="72.6128" />
</element>
<material formula="Ge" name="Germanium" state="solid" >
<RL type="X0" unit="cm" value="2.3013" />
<NIL type="lambda" unit="cm" value="27.3344" />
<D type="density" unit="g/cm3" value="5.323" />
<composite n="1" ref="Ge" />
</material>
<element Z="1" formula="H" name="H" >
<atom type="A" unit="g/mol" value="1.00794" />
</element>
<material formula="H" name="Hydrogen" state="gas" >
<RL type="X0" unit="cm" value="752776" />
<NIL type="lambda" unit="cm" value="421239" />
<D type="density" unit="g/cm3" value="8.3748e-05" />
<composite n="1" ref="H" />
</material>
<element Z="2" formula="He" name="He" >
<atom type="A" unit="g/mol" value="4.00264" />
</element>
<material formula="He" name="Helium" state="gas" >
<RL type="X0" unit="cm" value="567113" />
<NIL type="lambda" unit="cm" value="334266" />
<D type="density" unit="g/cm3" value="0.000166322" />
<composite n="1" ref="He" />
</material>
<element Z="72" formula="Hf" name="Hf" >
<atom type="A" unit="g/mol" value="178.485" />
</element>
<material formula="Hf" name="Hafnium" state="solid" >
<RL type="X0" unit="cm" value="0.517717" />
<NIL type="lambda" unit="cm" value="14.7771" />
<D type="density" unit="g/cm3" value="13.31" />
<composite n="1" ref="Hf" />
</material>
<element Z="80" formula="Hg" name="Hg" >
<atom type="A" unit="g/mol" value="200.599" />
</element>
<material formula="Hg" name="Mercury" state="solid" >
<RL type="X0" unit="cm" value="0.475241" />
<NIL type="lambda" unit="cm" value="15.105" />
<D type="density" unit="g/cm3" value="13.546" />
<composite n="1" ref="Hg" />
</material>
<element Z="67" formula="Ho" name="Ho" >
<atom type="A" unit="g/mol" value="164.93" />
</element>
<material formula="Ho" name="Holmium" state="solid" >
<RL type="X0" unit="cm" value="0.822447" />
<NIL type="lambda" unit="cm" value="21.8177" />
<D type="density" unit="g/cm3" value="8.795" />
<composite n="1" ref="Ho" />
</material>
<element Z="53" formula="I" name="I" >
<atom type="A" unit="g/mol" value="126.904" />
</element>
<material formula="I" name="Iodine" state="solid" >
<RL type="X0" unit="cm" value="1.72016" />
<NIL type="lambda" unit="cm" value="35.6583" />
<D type="density" unit="g/cm3" value="4.93" />
<composite n="1" ref="I" />
</material>
<element Z="49" formula="In" name="In" >
<atom type="A" unit="g/mol" value="114.818" />
</element>
<material formula="In" name="Indium" state="solid" >
<RL type="X0" unit="cm" value="1.21055" />
<NIL type="lambda" unit="cm" value="23.2468" />
<D type="density" unit="g/cm3" value="7.31" />
<composite n="1" ref="In" />
</material>
<element Z="77" formula="Ir" name="Ir" >
<atom type="A" unit="g/mol" value="192.216" />
</element>
<material formula="Ir" name="Iridium" state="solid" >
<RL type="X0" unit="cm" value="0.294142" />
<NIL type="lambda" unit="cm" value="9.01616" />
<D type="density" unit="g/cm3" value="22.42" />
<composite n="1" ref="Ir" />
</material>
<element Z="19" formula="K" name="K" >
<atom type="A" unit="g/mol" value="39.0983" />
</element>
<material formula="K" name="Potassium" state="solid" >
<RL type="X0" unit="cm" value="20.0871" />
<NIL type="lambda" unit="cm" value="138.041" />
<D type="density" unit="g/cm3" value="0.862" />
<composite n="1" ref="K" />
</material>
<element Z="36" formula="Kr" name="Kr" >
<atom type="A" unit="g/mol" value="83.7993" />
</element>
<material formula="Kr" name="Krypton" state="gas" >
<RL type="X0" unit="cm" value="3269.44" />
<NIL type="lambda" unit="cm" value="43962.9" />
<D type="density" unit="g/cm3" value="0.00347832" />
<composite n="1" ref="Kr" />
</material>
<element Z="57" formula="La" name="La" >
<atom type="A" unit="g/mol" value="138.905" />
</element>
<material formula="La" name="Lanthanum" state="solid" >
<RL type="X0" unit="cm" value="1.32238" />
<NIL type="lambda" unit="cm" value="29.441" />
<D type="density" unit="g/cm3" value="6.154" />
<composite n="1" ref="La" />
</material>
<element Z="3" formula="Li" name="Li" >
<atom type="A" unit="g/mol" value="6.94003" />
</element>
<material formula="Li" name="Lithium" state="solid" >
<RL type="X0" unit="cm" value="154.997" />
<NIL type="lambda" unit="cm" value="124.305" />
<D type="density" unit="g/cm3" value="0.534" />
<composite n="1" ref="Li" />
</material>
<element Z="71" formula="Lu" name="Lu" >
<atom type="A" unit="g/mol" value="174.967" />
</element>
<material formula="Lu" name="Lutetium" state="solid" >
<RL type="X0" unit="cm" value="0.703651" />
<NIL type="lambda" unit="cm" value="19.8916" />
<D type="density" unit="g/cm3" value="9.84" />
<composite n="1" ref="Lu" />
</material>
<element Z="12" formula="Mg" name="Mg" >
<atom type="A" unit="g/mol" value="24.305" />
</element>
<material formula="Mg" name="Magnesium" state="solid" >
<RL type="X0" unit="cm" value="14.3859" />
<NIL type="lambda" unit="cm" value="58.7589" />
<D type="density" unit="g/cm3" value="1.74" />
<composite n="1" ref="Mg" />
</material>
<element Z="25" formula="Mn" name="Mn" >
<atom type="A" unit="g/mol" value="54.938" />
</element>
<material formula="Mn" name="Manganese" state="solid" >
<RL type="X0" unit="cm" value="1.96772" />
<NIL type="lambda" unit="cm" value="17.8701" />
<D type="density" unit="g/cm3" value="7.44" />
<composite n="1" ref="Mn" />
</material>
<element Z="42" formula="Mo" name="Mo" >
<atom type="A" unit="g/mol" value="95.9313" />
</element>
<material formula="Mo" name="Molybdenum" state="solid" >
<RL type="X0" unit="cm" value="0.959107" />
<NIL type="lambda" unit="cm" value="15.6698" />
<D type="density" unit="g/cm3" value="10.22" />
<composite n="1" ref="Mo" />
</material>
<element Z="7" formula="N" name="N" >
<atom type="A" unit="g/mol" value="14.0068" />
</element>
<material formula="N" name="Nitrogen" state="gas" >
<RL type="X0" unit="cm" value="32602.2" />
<NIL type="lambda" unit="cm" value="72430.3" />
<D type="density" unit="g/cm3" value="0.0011652" />
<composite n="1" ref="N" />
</material>
<element Z="11" formula="Na" name="Na" >
<atom type="A" unit="g/mol" value="22.9898" />
</element>
<material formula="Na" name="Sodium" state="solid" >
<RL type="X0" unit="cm" value="28.5646" />
<NIL type="lambda" unit="cm" value="102.463" />
<D type="density" unit="g/cm3" value="0.971" />
<composite n="1" ref="Na" />
</material>
<element Z="41" formula="Nb" name="Nb" >
<atom type="A" unit="g/mol" value="92.9064" />
</element>
<material formula="Nb" name="Niobium" state="solid" >
<RL type="X0" unit="cm" value="1.15783" />
<NIL type="lambda" unit="cm" value="18.4846" />
<D type="density" unit="g/cm3" value="8.57" />
<composite n="1" ref="Nb" />
</material>
<element Z="60" formula="Nd" name="Nd" >
<atom type="A" unit="g/mol" value="144.236" />
</element>
<material formula="Nd" name="Neodymium" state="solid" >
<RL type="X0" unit="cm" value="1.11667" />
<NIL type="lambda" unit="cm" value="26.6308" />
<D type="density" unit="g/cm3" value="6.9" />
<composite n="1" ref="Nd" />
</material>
<element Z="10" formula="Ne" name="Ne" >
<atom type="A" unit="g/mol" value="20.18" />
</element>
<material formula="Ne" name="Neon" state="gas" >
<RL type="X0" unit="cm" value="34504.8" />
<NIL type="lambda" unit="cm" value="114322" />
<D type="density" unit="g/cm3" value="0.000838505" />
<composite n="1" ref="Ne" />
</material>
<element Z="28" formula="Ni" name="Ni" >
<atom type="A" unit="g/mol" value="58.6933" />
</element>
<material formula="Ni" name="Nickel" state="solid" >
<RL type="X0" unit="cm" value="1.42422" />
<NIL type="lambda" unit="cm" value="15.2265" />
<D type="density" unit="g/cm3" value="8.902" />
<composite n="1" ref="Ni" />
</material>
<element Z="93" formula="Np" name="Np" >
<atom type="A" unit="g/mol" value="237.048" />
</element>
<material formula="Np" name="Neptunium" state="solid" >
<RL type="X0" unit="cm" value="0.289676" />
<NIL type="lambda" unit="cm" value="10.6983" />
<D type="density" unit="g/cm3" value="20.25" />
<composite n="1" ref="Np" />
</material>
<element Z="8" formula="O" name="O" >
<atom type="A" unit="g/mol" value="15.9994" />
</element>
<material formula="O" name="Oxygen" state="gas" >
<RL type="X0" unit="cm" value="25713.8" />
<NIL type="lambda" unit="cm" value="66233.9" />
<D type="density" unit="g/cm3" value="0.00133151" />
<composite n="1" ref="O" />
</material>
<element Z="76" formula="Os" name="Os" >
<atom type="A" unit="g/mol" value="190.225" />
</element>
<material formula="Os" name="Osmium" state="solid" >
<RL type="X0" unit="cm" value="0.295861" />
<NIL type="lambda" unit="cm" value="8.92553" />
<D type="density" unit="g/cm3" value="22.57" />
<composite n="1" ref="Os" />
</material>
<element Z="15" formula="P" name="P" >
<atom type="A" unit="g/mol" value="30.9738" />
</element>
<material formula="P" name="Phosphorus" state="solid" >
<RL type="X0" unit="cm" value="9.63879" />
<NIL type="lambda" unit="cm" value="49.9343" />
<D type="density" unit="g/cm3" value="2.2" />
<composite n="1" ref="P" />
</material>
<element Z="91" formula="Pa" name="Pa" >
<atom type="A" unit="g/mol" value="231.036" />
</element>
<material formula="Pa" name="Protactinium" state="solid" >
<RL type="X0" unit="cm" value="0.38607" />
<NIL type="lambda" unit="cm" value="13.9744" />
<D type="density" unit="g/cm3" value="15.37" />
<composite n="1" ref="Pa" />
</material>
<element Z="82" formula="Pb" name="Pb" >
<atom type="A" unit="g/mol" value="207.217" />
</element>
<material formula="Pb" name="Lead" state="solid" >
<RL type="X0" unit="cm" value="0.561253" />
<NIL type="lambda" unit="cm" value="18.2607" />
<D type="density" unit="g/cm3" value="11.35" />
<composite n="1" ref="Pb" />
</material>
<element Z="46" formula="Pd" name="Pd" >
<atom type="A" unit="g/mol" value="106.415" />
</element>
<material formula="Pd" name="Palladium" state="solid" >
<RL type="X0" unit="cm" value="0.765717" />
<NIL type="lambda" unit="cm" value="13.7482" />
<D type="density" unit="g/cm3" value="12.02" />
<composite n="1" ref="Pd" />
</material>
<element Z="61" formula="Pm" name="Pm" >
<atom type="A" unit="g/mol" value="144.913" />
</element>
<material formula="Pm" name="Promethium" state="solid" >
<RL type="X0" unit="cm" value="1.04085" />
<NIL type="lambda" unit="cm" value="25.4523" />
<D type="density" unit="g/cm3" value="7.22" />
<composite n="1" ref="Pm" />
</material>
<element Z="84" formula="Po" name="Po" >
<atom type="A" unit="g/mol" value="208.982" />
</element>
<material formula="Po" name="Polonium" state="solid" >
<RL type="X0" unit="cm" value="0.661092" />
<NIL type="lambda" unit="cm" value="22.2842" />
<D type="density" unit="g/cm3" value="9.32" />
<composite n="1" ref="Po" />
</material>
<element Z="59" formula="Pr" name="Pr" >
<atom type="A" unit="g/mol" value="140.908" />
</element>
<material formula="Pr" name="Praseodymium" state="solid" >
<RL type="X0" unit="cm" value="1.1562" />
<NIL type="lambda" unit="cm" value="27.1312" />
<D type="density" unit="g/cm3" value="6.71" />
<composite n="1" ref="Pr" />
</material>
<element Z="78" formula="Pt" name="Pt" >
<atom type="A" unit="g/mol" value="195.078" />
</element>
<material formula="Pt" name="Platinum" state="solid" >
<RL type="X0" unit="cm" value="0.305053" />
<NIL type="lambda" unit="cm" value="9.46584" />
<D type="density" unit="g/cm3" value="21.45" />
<composite n="1" ref="Pt" />
</material>
<element Z="94" formula="Pu" name="Pu" >
<atom type="A" unit="g/mol" value="244.064" />
</element>
<material formula="Pu" name="Plutonium" state="solid" >
<RL type="X0" unit="cm" value="0.298905" />
<NIL type="lambda" unit="cm" value="11.0265" />
<D type="density" unit="g/cm3" value="19.84" />
<composite n="1" ref="Pu" />
</material>
<element Z="88" formula="Ra" name="Ra" >
<atom type="A" unit="g/mol" value="226.025" />
</element>
<material formula="Ra" name="Radium" state="solid" >
<RL type="X0" unit="cm" value="1.22987" />
<NIL type="lambda" unit="cm" value="42.6431" />
<D type="density" unit="g/cm3" value="5" />
<composite n="1" ref="Ra" />
</material>
<element Z="37" formula="Rb" name="Rb" >
<atom type="A" unit="g/mol" value="85.4677" />
</element>
<material formula="Rb" name="Rubidium" state="solid" >
<RL type="X0" unit="cm" value="7.19774" />
<NIL type="lambda" unit="cm" value="100.218" />
<D type="density" unit="g/cm3" value="1.532" />
<composite n="1" ref="Rb" />
</material>
<element Z="75" formula="Re" name="Re" >
<atom type="A" unit="g/mol" value="186.207" />
</element>
<material formula="Re" name="Rhenium" state="solid" >
<RL type="X0" unit="cm" value="0.318283" />
<NIL type="lambda" unit="cm" value="9.5153" />
<D type="density" unit="g/cm3" value="21.02" />
<composite n="1" ref="Re" />
</material>
<element Z="45" formula="Rh" name="Rh" >
<atom type="A" unit="g/mol" value="102.906" />
</element>
<material formula="Rh" name="Rhodium" state="solid" >
<RL type="X0" unit="cm" value="0.746619" />
<NIL type="lambda" unit="cm" value="13.2083" />
<D type="density" unit="g/cm3" value="12.41" />
<composite n="1" ref="Rh" />
</material>
<element Z="86" formula="Rn" name="Rn" >
<atom type="A" unit="g/mol" value="222.018" />
</element>
<material formula="Rn" name="Radon" state="gas" >
<RL type="X0" unit="cm" value="697.777" />
<NIL type="lambda" unit="cm" value="23532" />
<D type="density" unit="g/cm3" value="0.00900662" />
<composite n="1" ref="Rn" />
</material>
<element Z="44" formula="Ru" name="Ru" >
<atom type="A" unit="g/mol" value="101.065" />
</element>
<material formula="Ru" name="Ruthenium" state="solid" >
<RL type="X0" unit="cm" value="0.764067" />
<NIL type="lambda" unit="cm" value="13.1426" />
<D type="density" unit="g/cm3" value="12.41" />
<composite n="1" ref="Ru" />
</material>
<element Z="16" formula="S" name="S" >
<atom type="A" unit="g/mol" value="32.0661" />
</element>
<material formula="S" name="Sulfur" state="solid" >
<RL type="X0" unit="cm" value="9.74829" />
<NIL type="lambda" unit="cm" value="55.6738" />
<D type="density" unit="g/cm3" value="2" />
<composite n="1" ref="S" />
</material>
<element Z="51" formula="Sb" name="Sb" >
<atom type="A" unit="g/mol" value="121.76" />
</element>
<material formula="Sb" name="Antimony" state="solid" >
<RL type="X0" unit="cm" value="1.30401" />
<NIL type="lambda" unit="cm" value="25.8925" />
<D type="density" unit="g/cm3" value="6.691" />
<composite n="1" ref="Sb" />
</material>
<element Z="21" formula="Sc" name="Sc" >
<atom type="A" unit="g/mol" value="44.9559" />
</element>
<material formula="Sc" name="Scandium" state="solid" >
<RL type="X0" unit="cm" value="5.53545" />
<NIL type="lambda" unit="cm" value="41.609" />
<D type="density" unit="g/cm3" value="2.989" />
<composite n="1" ref="Sc" />
</material>
<element Z="34" formula="Se" name="Se" >
<atom type="A" unit="g/mol" value="78.9594" />
</element>
<material formula="Se" name="Selenium" state="solid" >
<RL type="X0" unit="cm" value="2.64625" />
<NIL type="lambda" unit="cm" value="33.356" />
<D type="density" unit="g/cm3" value="4.5" />
<composite n="1" ref="Se" />
</material>
<element Z="14" formula="Si" name="Si" >
<atom type="A" unit="g/mol" value="28.0854" />
</element>
<material formula="Si" name="Silicon" state="solid" >
<RL type="X0" unit="cm" value="9.36607" />
<NIL type="lambda" unit="cm" value="45.7531" />
<D type="density" unit="g/cm3" value="2.33" />
<composite n="1" ref="Si" />
</material>
<element Z="62" formula="Sm" name="Sm" >
<atom type="A" unit="g/mol" value="150.366" />
</element>
<material formula="Sm" name="Samarium" state="solid" >
<RL type="X0" unit="cm" value="1.01524" />
<NIL type="lambda" unit="cm" value="24.9892" />
<D type="density" unit="g/cm3" value="7.46" />
<composite n="1" ref="Sm" />
</material>
<element Z="50" formula="Sn" name="Sn" >
<atom type="A" unit="g/mol" value="118.71" />
</element>
<material formula="Sn" name="Tin" state="solid" >
<RL type="X0" unit="cm" value="1.20637" />
<NIL type="lambda" unit="cm" value="23.4931" />
<D type="density" unit="g/cm3" value="7.31" />
<composite n="1" ref="Sn" />
</material>
<element Z="38" formula="Sr" name="Sr" >
<atom type="A" unit="g/mol" value="87.6166" />
</element>
<material formula="Sr" name="Strontium" state="solid" >
<RL type="X0" unit="cm" value="4.237" />
<NIL type="lambda" unit="cm" value="61.0238" />
<D type="density" unit="g/cm3" value="2.54" />
<composite n="1" ref="Sr" />
</material>
<element Z="73" formula="Ta" name="Ta" >
<atom type="A" unit="g/mol" value="180.948" />
</element>
<material formula="Ta" name="Tantalum" state="solid" >
<RL type="X0" unit="cm" value="0.409392" />
<NIL type="lambda" unit="cm" value="11.8846" />
<D type="density" unit="g/cm3" value="16.654" />
<composite n="1" ref="Ta" />
</material>
<element Z="65" formula="Tb" name="Tb" >
<atom type="A" unit="g/mol" value="158.925" />
</element>
<material formula="Tb" name="Terbium" state="solid" >
<RL type="X0" unit="cm" value="0.893977" />
<NIL type="lambda" unit="cm" value="23.0311" />
<D type="density" unit="g/cm3" value="8.229" />
<composite n="1" ref="Tb" />
</material>
<element Z="43" formula="Tc" name="Tc" >
<atom type="A" unit="g/mol" value="97.9072" />
</element>
<material formula="Tc" name="Technetium" state="solid" >
<RL type="X0" unit="cm" value="0.833149" />
<NIL type="lambda" unit="cm" value="14.0185" />
<D type="density" unit="g/cm3" value="11.5" />
<composite n="1" ref="Tc" />
</material>
<element Z="52" formula="Te" name="Te" >
<atom type="A" unit="g/mol" value="127.603" />
</element>
<material formula="Te" name="Tellurium" state="solid" >
<RL type="X0" unit="cm" value="1.41457" />
<NIL type="lambda" unit="cm" value="28.1797" />
<D type="density" unit="g/cm3" value="6.24" />
<composite n="1" ref="Te" />
</material>
<element Z="90" formula="Th" name="Th" >
<atom type="A" unit="g/mol" value="232.038" />
</element>
<material formula="Th" name="Thorium" state="solid" >
<RL type="X0" unit="cm" value="0.51823" />
<NIL type="lambda" unit="cm" value="18.353" />
<D type="density" unit="g/cm3" value="11.72" />
<composite n="1" ref="Th" />
</material>
<element Z="22" formula="Ti" name="Ti" >
<atom type="A" unit="g/mol" value="47.8667" />
</element>
<material formula="Ti" name="Titanium" state="solid" >
<RL type="X0" unit="cm" value="3.5602" />
<NIL type="lambda" unit="cm" value="27.9395" />
<D type="density" unit="g/cm3" value="4.54" />
<composite n="1" ref="Ti" />
</material>
<element Z="81" formula="Tl" name="Tl" >
<atom type="A" unit="g/mol" value="204.383" />
</element>
<material formula="Tl" name="Thallium" state="solid" >
<RL type="X0" unit="cm" value="0.547665" />
<NIL type="lambda" unit="cm" value="17.6129" />
<D type="density" unit="g/cm3" value="11.72" />
<composite n="1" ref="Tl" />
</material>
<element Z="69" formula="Tm" name="Tm" >
<atom type="A" unit="g/mol" value="168.934" />
</element>
<material formula="Tm" name="Thulium" state="solid" >
<RL type="X0" unit="cm" value="0.754428" />
<NIL type="lambda" unit="cm" value="20.7522" />
<D type="density" unit="g/cm3" value="9.321" />
<composite n="1" ref="Tm" />
</material>
<element Z="92" formula="U" name="U" >
<atom type="A" unit="g/mol" value="238.029" />
</element>
<material formula="U" name="Uranium" state="solid" >
<RL type="X0" unit="cm" value="0.31663" />
<NIL type="lambda" unit="cm" value="11.4473" />
<D type="density" unit="g/cm3" value="18.95" />
<composite n="1" ref="U" />
</material>
<element Z="23" formula="V" name="V" >
<atom type="A" unit="g/mol" value="50.9415" />
</element>
<material formula="V" name="Vanadium" state="solid" >
<RL type="X0" unit="cm" value="2.59285" />
<NIL type="lambda" unit="cm" value="21.2187" />
<D type="density" unit="g/cm3" value="6.11" />
<composite n="1" ref="V" />
</material>
<element Z="74" formula="W" name="W" >
<atom type="A" unit="g/mol" value="183.842" />
</element>
<material formula="W" name="Tungsten" state="solid" >
<RL type="X0" unit="cm" value="0.350418" />
<NIL type="lambda" unit="cm" value="10.3057" />
<D type="density" unit="g/cm3" value="19.3" />
<composite n="1" ref="W" />
</material>
<element Z="54" formula="Xe" name="Xe" >
<atom type="A" unit="g/mol" value="131.292" />
</element>
<material formula="Xe" name="Xenon" state="gas" >
<RL type="X0" unit="cm" value="1546.2" />
<NIL type="lambda" unit="cm" value="32477.9" />
<D type="density" unit="g/cm3" value="0.00548536" />
<composite n="1" ref="Xe" />
</material>
<element Z="39" formula="Y" name="Y" >
<atom type="A" unit="g/mol" value="88.9058" />
</element>
<material formula="Y" name="Yttrium" state="solid" >
<RL type="X0" unit="cm" value="2.32943" />
<NIL type="lambda" unit="cm" value="34.9297" />
<D type="density" unit="g/cm3" value="4.469" />
<composite n="1" ref="Y" />
</material>
<element Z="70" formula="Yb" name="Yb" >
<atom type="A" unit="g/mol" value="173.038" />
</element>
<material formula="Yb" name="Ytterbium" state="solid" >
<RL type="X0" unit="cm" value="1.04332" />
<NIL type="lambda" unit="cm" value="28.9843" />
<D type="density" unit="g/cm3" value="6.73" />
<composite n="1" ref="Yb" />
</material>
<element Z="30" formula="Zn" name="Zn" >
<atom type="A" unit="g/mol" value="65.3955" />
</element>
<material formula="Zn" name="Zinc" state="solid" >
<RL type="X0" unit="cm" value="1.74286" />
<NIL type="lambda" unit="cm" value="19.8488" />
<D type="density" unit="g/cm3" value="7.133" />
<composite n="1" ref="Zn" />
</material>
<element Z="40" formula="Zr" name="Zr" >
<atom type="A" unit="g/mol" value="91.2236" />
</element>
<material formula="Zr" name="Zirconium" state="solid" >
<RL type="X0" unit="cm" value="1.56707" />
<NIL type="lambda" unit="cm" value="24.2568" />
<D type="density" unit="g/cm3" value="6.506" />
<composite n="1" ref="Zr" />
</material>
</materials>
template/materials.xml 0 → 100644
+ 187
0
View file @ c43be0d2
<?xml version="1.0" encoding="UTF-8"?>
<materials>
<!--
Air by weight from
http://www.engineeringtoolbox.com/air-composition-24_212.html
-->
<material name="PlasticScint">
<D type="density" unit="g/cm3" value="1.032"/>
<composite n="9" ref="C"/>
<composite n="10" ref="H"/>
</material>
<material name="Lead">
<D type="density" value="11.34" unit="g/cm3"/>
<fraction n="1.0" ref="Pb"/>
</material>
<material name="Air">
<D type="density" unit="g/cm3" value="0.0012"/>
<fraction n="0.754" ref="N"/>
<fraction n="0.234" ref="O"/>
<fraction n="0.012" ref="Ar"/>
</material>
<!-- We model vakuum just as very thin air -->
<material name="Vacuum">
<D type="density" unit="g/cm3" value="0.0000000001"/>
<fraction n="0.754" ref="N"/>
<fraction n="0.234" ref="O"/>
<fraction n="0.012" ref="Ar"/>
</material>
<material name="Epoxy">
<D type="density" value="1.3" unit="g/cm3"/>
<composite n="44" ref="H"/>
<composite n="15" ref="C"/>
<composite n="7" ref="O"/>
</material>
<material name="Quartz">
<D type="density" value="2.2" unit="g/cm3"/>
<composite n="1" ref="Si"/>
<composite n="2" ref="O"/>
</material>
<material name="G10">
<D type="density" value="1.7" unit="g/cm3"/>
<fraction n="0.08" ref="Cl"/>
<fraction n="0.773" ref="Quartz"/>
<fraction n="0.147" ref="Epoxy"/>
</material>
<material name="Polystyrene">
<D value="1.032" unit="g/cm3"/>
<composite n="19" ref="C"/>
<composite n="21" ref="H"/>
</material>
<material name="Steel235">
<D value="7.85" unit="g/cm3"/>
<fraction n="0.998" ref="Fe"/>
<fraction n=".002" ref="C"/>
</material>
<material name="SiliconOxide">
<D type="density" value="2.65" unit="g/cm3"/>
<composite n="1" ref="Si"/>
<composite n="2" ref="O"/>
</material>
<material name="BoronOxide">
<D type="density" value="2.46" unit="g/cm3"/>
<composite n="2" ref="B"/>
<composite n="3" ref="O"/>
</material>
<material name="SodiumOxide">
<D type="density" value="2.65" unit="g/cm3"/>
<composite n="2" ref="Na"/>
<composite n="1" ref="O"/>
</material>
<material name="AluminumOxide">
<D type="density" value="3.89" unit="g/cm3"/>
<composite n="2" ref="Al"/>
<composite n="3" ref="O"/>
</material>
<material name="PyrexGlass">
<D type="density" value="2.23" unit="g/cm3"/>
<fraction n="0.806" ref="SiliconOxide"/>
<fraction n="0.130" ref="BoronOxide"/>
<fraction n="0.040" ref="SodiumOxide"/>
<fraction n="0.023" ref="AluminumOxide"/>
</material>
<material name="CarbonFiber">
<D type="density" value="1.5" unit="g/cm3"/>
<fraction n="0.65" ref="C"/>
<fraction n="0.35" ref="Epoxy"/>
</material>
<material name="CarbonFiber_50D">
<D type="density" value="0.75" unit="g/cm3"/>
<fraction n="0.65" ref="C"/>
<fraction n="0.35" ref="Epoxy"/>
</material>
<material name="Rohacell31">
<D type="density" value="0.032" unit="g/cm3"/>
<composite n="9" ref="C"/>
<composite n="13" ref="H"/>
<composite n="2" ref="O"/>
<composite n="1" ref="N"/>
</material>
<material name="Rohacell31_50D">
<D type="density" value="0.016" unit="g/cm3"/>
<composite n="9" ref="C"/>
<composite n="13" ref="H"/>
<composite n="2" ref="O"/>
<composite n="1" ref="N"/>
</material>
<material name="RPCGasDefault" state="gas">
<D type="density" value="0.0037" unit="g/cm3"/>
<composite n="209" ref="C"/>
<composite n="239" ref="H"/>
<composite n="381" ref="F"/>
</material>
<material name="PolystyreneFoam">
<D type="density" value="0.0056" unit="g/cm3"/>
<fraction n="1.0" ref="Polystyrene"/>
</material>
<material name="Kapton">
<D value="1.43" unit="g/cm3"/>
<composite n="22" ref="C"/>
<composite n="10" ref="H"/>
<composite n="2" ref="N"/>
<composite n="5" ref="O"/>
</material>
<material name="PEEK">
<D value="1.37" unit="g/cm3"/>
<composite n="19" ref="C"/>
<composite n="12" ref="H"/>
<composite n="3" ref="O"/>
</material>
<material name="TungstenDens23">
<D value="17.7" unit="g / cm3"/>
<fraction n="0.925" ref="W"/>
<fraction n="0.066" ref="Ni"/>
<fraction n="0.009" ref="Fe"/>
</material>
<material name="TungstenDens24">
<D value="17.8" unit="g / cm3"/>
<fraction n="0.93" ref="W"/>
<fraction n="0.061" ref="Ni"/>
<fraction n="0.009" ref="Fe"/>
</material>
<material name="TungstenDens25">
<D value="18.2" unit="g / cm3"/>
<fraction n="0.950" ref="W"/>
<fraction n="0.044" ref="Ni"/>
<fraction n="0.006" ref="Fe"/>
</material>
<material name="CarbonFiber_25percent">
<D type="density" value="0.375" unit="g / cm3"/>
<fraction n="1.0" ref="CarbonFiber"/>
</material>
<material name="CarbonFiber_15percent">
<D type="density" value="0.225" unit="g / cm3"/>
<fraction n="1.0" ref="CarbonFiber"/>
</material>
<material name="Rohacell31_50percent">
<D type="density" value="0.016" unit="g / cm3"/>
<fraction n="1.0" ref="Rohacell31"/>
</material>
<material name="Rohacell31_15percent">
<D type="density" value="0.0048" unit="g / cm3"/>
<fraction n="1.0" ref="Rohacell31"/>
</material>
<material name="BoratedPolyethylene5">
<D value="0.93" unit="g / cm3"/>
<fraction n="0.612" ref="C"/>
<fraction n="0.222" ref="O"/>
<fraction n="0.116" ref="H"/>
<fraction n="0.050" ref="B"/>
</material>
<material name="SiliconCarbide">
<D value="3.1" unit="g / cm3"/>
<composite n="1" ref="Si"/>
<composite n="1" ref="C"/>
</material>
<material name="SiliconCarbide_6percent">
<D value="0.186" unit="g / cm3"/>
<fraction n="1.0" ref="SiliconCarbide"/>
</material>
<material name="PbWO4">
<D type="density" value="8.3" unit="g / cm3"/>
<composite n="1" ref="Pb"/>
<composite n="1" ref="W"/>
<composite n="4" ref="O"/>
</material>
</materials>
0% or .
You are about to add 0 people to the discussion. Proceed with caution.
Please register or to comment