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Commit d99b8bea authored by Whitney Armstrong's avatar Whitney Armstrong
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new file: elements.xml 

	new file:   materials.xml
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<?xml version="1.0" encoding="UTF-8"?>
<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>
benchmarks/zdc/materials.xml 0 → 100644
+ 189
0
View file @ d99b8bea
<?xml version="1.0" encoding="UTF-8"?>
<materials>
<!--
Air by weight from
http://www.engineeringtoolbox.com/air-composition-24_212.html
-->
<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="SiliconNitride">
<D type="density" value="3.17" unit="g/cm3"/>
<composite n="3" ref="Si"/>
<composite n="4" ref="N"/>
</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="PlasticScint">
<D type="density" unit="g/cm3" value="1.032"/>
<composite n="9" ref="C"/>
<composite n="10" ref="H"/>
</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>
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