refs #5821. Add and check new IDF.

31c75262 · Owen Arnold · 46c9c07e · 31c75262 · 31c75262
Commit 31c75262 authored 12 years ago by Owen Arnold
--- a/Code/Mantid/instrument/Facilities.xml
+++ b/Code/Mantid/instrument/Facilities.xml
@@ -49,6 +49,11 @@
    <technique>Neutron Diffraction</technique>
    <livedata address="NDXINES:6789" />
  </instrument>
+  
+  <instrument name="INTER">
+    <technique>Reflectometry</technique>
+    <livedata address="NDXINTER:6789" />
+  </instrument>

  <instrument name="IRIS" shortname="IRS" beamline="N6">
    <zeropadding size="8" startRunNumber="54938" prefix="IRIS"/>

--- a/Code/Mantid/instrument/INTER_Definition.xml
+++ b/Code/Mantid/instrument/INTER_Definition.xml
+<?xml version="1.0" encoding="UTF-8"?>
+<instrument name="INTER" valid-from   ="1900-01-31 23:59:59"
+                          valid-to     ="2100-01-31 23:59:59"          
+			last-modified="2010-11-04 00:00:00">
+  <defaults>
+    <length unit="meter" />
+    <angle unit="degree" />
+    <reference-frame>
+      <along-beam axis="z" />
+      <pointing-up axis="y" />
+      <handedness val="right" />
+    </reference-frame>
+    <default-view axis-view="z+"/>
+  </defaults>
+
+  
+ <!-- Definition of instrument specific parameters for data reduction (e.g. wavelength cutoffs etc.) , could go into paramter file
+	MonitorBackground= [7.6,8.5]
+	MonitorsToCorrect=[1]
+	PointDetectorStart=[0]   # Note: Since we are removing the monitors in the load raw command they are not counted here.
+	PointDetectorStop=[0]
+	MultiDetectorStart=[1]
+	I0MonitorIndex=1
+ -->
+ 
+  <parameter name="MonitorBackgroundMin">
+	<value val="15.0"/> 
+  </parameter>
+  
+  <parameter name="MonitorBackgroundMax">
+	<value val="17.0"/> 
+  </parameter>
+   
+<!-- here we need to add the other monitors -->
+  <parameter name="MonitorsToCorrect">
+    <value val="1"/>
+  </parameter>
+
+  <parameter name="PointDetectorStart">
+    <value val="0"/>
+  </parameter>
+
+  <parameter name="PointDetectorStop">
+    <value val="0"/>
+  </parameter>
+  
+  <parameter name="MultiDetectorStart">
+    <value val="6"/>
+  </parameter>
+  
+  <parameter name="I0MonitorIndex">
+    <value val="2"/>
+  </parameter>
+  
+  <parameter name="LambdaMin">
+    <value val="1.0"/>
+  </parameter>
+
+  <parameter name="LambdaMax">
+    <value val="17.0"/>
+  </parameter>
+  
+  
+  
+  <!-- BRIEF DESCRIPTION OF Inter INSTRUMENT: 
+  
+      Here Z=0 is defined by the neutron beam which slopes down at 2.3 deg. 
+      from the horizon. This description is based on data provided by Tim
+      Charlton and Rob Dalgliesh.
+      
+      Note from Tim spreedsheet
+      theta is a rotation about the y axis
+      phi is a rotation about the x axis
+      chi is a rotation about the z axis
+
+      Noticed the face of the monitors/detector shapes that faces the
+      beam/sample path is in this IDF defined to be the y-z plane.
+      
+      Note the status of the instrument during a run is stored in the 
+      logfile RunNo_status.txt
+  -->
+  
+  
+  <!-- LIST OF PHYSICAL COMPONENTS (which the instrument consists of) -->
+  
+  <!-- detector components (including monitors) -->
+  
+  <component type="monitor1" idlist="monitor1">
+    <location z="6.96" mark-as="monitor" />  
+  </component>
+  
+  <type name="monitor1" is="detector">
+    <!-- Shape specified at least big enough to cover the beam which
+         is 10mm high and 40mm wide. Note it is described as tube, hence
+	 the choice of a cylinder shape.
+    -->    
+    <percent-transparency val="95" />
+    <cylinder id="shape">
+      <centre-of-bottom-base z="0.0" x="-0.02" y="0.0" />
+      <axis z="0.0" x="1.0" y="0.0" /> 
+      <radius val="0.01" />
+      <height val="0.04" />
+    </cylinder> 
+    <algebra val="shape" />
+  </type>  
+  
+  <component type="monitor2" idlist="monitor2">
+    <location z="13.791" mark-as="monitor" /> <!-- x = 23.0-5.05 -->
+  </component>  
+  
+  <type name="monitor2" is="detector">
+    <!-- Shape specified as a minimum needs to cover the beam which
+         is 10mm high and 40mm wide. The 'top' shape is included to
+	 more easily recognise this monitor when visualised in MantidPlot.
+	 This monitor is suppose to look a bit like a German hand grenade.
+    -->    
+    <percent-transparency val="95" />
+    <cuboid id="base">
+      <left-front-bottom-point z="0.04" x="-0.02" y="-0.01"  />
+      <left-front-top-point  z="0.04" x="-0.02" y="0.01"  />
+      <left-back-bottom-point  z="-0.04" x="-0.02" y="-0.01"  />
+      <right-front-bottom-point  z="0.04" x="0.02" y="-0.01"  />
+    </cuboid>
+    
+    <cylinder id="top">
+      <centre-of-bottom-base z="0.0" x="0.0" y="0.01" />
+      <axis z="0.0" x="0.0" y="1.0" /> 
+      <radius val="0.02" />
+      <height val="0.04" />
+    </cylinder> 
+    
+    <algebra val="base : top" />
+  </type>  
+
+  <component type="monitor3" idlist="monitor3">
+    <location z="16.785" mark-as="monitor" />  <!-- 23.0-0.425 -->
+  </component>  
+  
+  <type name="monitor3" is="detector">
+    <!-- Shape specified as a minimum needs to cover the beam which
+         is 10mm high and 40mm wide. The 'top' shape is included to
+	 more easily recognise this monitor when visualised in MantidPlot.
+	 This monitor is suppose to look a bit like a German hand grenade.
+
+	
+
+    -->    
+    <percent-transparency val="95" />
+    <cuboid id="base">
+      <left-front-bottom-point z="0.04" x="-0.02" y="-0.01"  />
+      <left-front-top-point  z="0.04" x="-0.02" y="0.01"  />
+      <left-back-bottom-point  z="-0.04" x="-0.02" y="-0.01"  />
+      <right-front-bottom-point  z="0.04" x="0.02" y="-0.01"  />
+    </cuboid>
+    
+    <cylinder id="top">
+      <centre-of-bottom-base z="0.0" x="0.0" y="0.01" />
+      <axis z="0.0" x="0.0" y="1.0" /> 
+      <radius val="0.02" />
+      <height val="0.04" />
+    </cylinder> 
+    
+    <algebra val="base : top" />
+  </type>  
+
+
+
+  <component type="point-detector" idlist="point-detector">
+  
+    <location z="19.700" />  <!-- x= 23.0+2.6 -->
+    
+    <!-- Link to log file that stores the z position. This angle can be used to
+    calculate the z position since the distance along the x-axis between
+    the sample and this detector is known (2.6m). Also theta in the logfile is
+    assumed to in degrees, hence the reason for the pi/180=0.0174533 transformation
+    to radians factor in the eq attribute.
+   
+   
+    This calculation becomes more complex due to the detector table and height stage above it. 
+    It should be revisited when the log files become more stable.
+
+    We may actually want to draw in the table for clarity.
+    -->
+    <parameter name="y">
+      <logfile id="theta" eq="2.6*sin(value*0.0174533)" extract-single-value-as="last_value"/>
+    </parameter>
+    
+  </component>   
+
+  <type name="point-detector" is="detector">
+    <!-- Not exactly sure about the dimensions of this one. But pretty sure
+    it at least covers the beam. Also, just in front of it is a slit which
+    at the end of day will determine which neutrons get through to this 
+    detector I believe.
+    -->    
+    <cuboid id="shape">
+      <left-front-bottom-point z="0.01" x="-0.02" y="-0.005"  />
+      <left-front-top-point  z="0.01" x="-0.02" y="0.005"  />
+      <left-back-bottom-point  z="-0.01" x="-0.02" y="-0.005"  />
+      <right-front-bottom-point  z="0.01" x="0.02" y="-0.005"  />
+    </cuboid>
+    <algebra val="shape" />
+  </type>    
+  
+  
+ <component type="point-detector2" idlist="point-detector2">
+  
+    <location z="19.700" />  <!-- x= 23.0+2.6 -->
+    
+    <!-- Link to log file that stores the z position. This angle can be used to
+    calculate the z position since the distance along the x-axis between
+    the sample and this detector is known (2.6m). Also theta in the logfile is
+    assumed to in degrees, hence the reason for the pi/180=0.0174533 transformation
+    to radians factor in the eq attribute.
+   
+   
+    This calculation becomes more complex due to the detector table and height stage above it. 
+    It should be revisited when the log files become more stable.
+
+    We may actually want to draw in the table for clarity.
+    -->
+    <parameter name="y">
+      <logfile id="Theta" eq="2.7*sin((value+1)*0.0174533)" extract-single-value-as="last_value"/>
+    </parameter>
+    
+  </component>   
+
+  <type name="point-detector2" is="detector">
+    <!-- Not exactly sure about the dimensions of this one. But pretty sure
+    it at least covers the beam. Also, just in front of it is a slit which
+    at the end of day will determine which neutrons get through to this 
+    detector I believe.
+    -->    
+    <cuboid id="shape">
+      <left-front-bottom-point z="0.01" x="-0.02" y="-0.005"  />
+      <left-front-top-point  z="0.01" x="-0.02" y="0.005"  />
+      <left-back-bottom-point  z="-0.01" x="-0.02" y="-0.005"  />
+      <right-front-bottom-point  z="0.01" x="0.02" y="-0.005"  />
+    </cuboid>
+    <algebra val="shape" />
+  </type>    
+   
+ 
+  
+  <!--  ################################### -->
+  <component type="panel" idstart="2001" idfillbyfirst="y" idstep="1" idstepbyrow="1">
+    <location z="20.200" name="linear-detector"/>
+    <parameter name="y">
+      <logfile id="Theta" eq="3.2*tan(value*0.0174533)-46*0.0012" extract-single-value-as="last_value"/>
+    </parameter>
+	
+  </component>
+ 
+  <type name="panel" is="rectangular_detector" type="linear-detector-pixel" 
+    xpixels="1" xstart="0.0" xstep="0.05"
+    ypixels="243" ystart="y" ystep="+0.0012" >
+    <properties/>
+  </type>  
+  <!--"-0.0576"-->
+  <type name="linear-detector-pixel" is="detector">
+    <cuboid id="shape">
+      <left-front-bottom-point z="0.01" x="-0.025" y="-0.0006"  />
+      <left-front-top-point  z="0.01" x="-0.025" y="0.0006"  />
+      <left-back-bottom-point  z="-0.01" x="-0.025" y="-0.0006"  />
+      <right-front-bottom-point  z="0.01" x="0.025" y="-0.0006"  />
+    </cuboid>
+    <algebra val="shape" />
+  </type>    
+
+  
+  <!-- source and sample-position components -->
+
+  <component type="source">
+    <location />
+  </component>
+
+  <type name="source" is="Source">
+    <properties>
+      40mm(H) x 60mm(W)
+    </properties>
+  </type> 
+  
+  
+  <component type="some-surface-holder">
+    <!-- worry about linking relevant logfiles for y,z,theta,phi up later -->
+    <location z="17.037"/>
+  </component>
+
+  <type name="some-surface-holder" is="SamplePos">
+  </type>
+  
+  
+  <!-- other components -->  
+
+  <!--  Must change the distances below to match polref -->
+
+  <component type="slit1">
+    <location z="15.200"/> <!-- x= 23.0 - 4.710 -->
+     <!-- This log file stores the vertical opening of slit -->
+    <parameter name="opening height"> 
+      <logfile id="s1" extract-single-value-as="position 1" />
+    </parameter>
+  </component>
+  
+  <component type="slit2">  
+    <location z="16.700"/>  <!-- x=23.0 - 0.590   -->
+    <!-- This log file stores the vertical opening of this. Note this
+     slit can also be translated in the z. However this info not stored
+     in log file since it is not used in the data analysis process. -->
+    <parameter name="opening height">
+      <logfile id="s2" extract-single-value-as="position 1" />         
+    </parameter>  
+  </component>    
+  
+  <component type="slit3">   
+    <location z="18.200"/> <!-- x=23.0+0.960   -->
+    <!-- This log file stores the vertical opening of slit -->  
+    <parameter name="opening height">
+      <logfile id="s3" extract-single-value-as="position 1" />        
+    </parameter>
+  </component>    
+  
+  <component type="slit4">    
+    <location z="19.700"/>     <!-- x=23.0+2.445   -->
+    <!-- This log file stores the vertical opening of slit. Note this slit
+     is fixed to the point detector. -->
+    <parameter name="opening height">
+      <logfile id="s4" extract-single-value-as="position 1" />    
+    </parameter>
+  </component>
+  
+  <type name="slit1"></type>
+  <type name="slit2"></type>
+  <type name="slit3"></type>
+  <type name="slit4"></type>  
+  
+  
+  
+  <component type="supermirror">
+    <!-- Worry about linking relevant logfiles for z,theta up later -->
+    <location z="28.52"/>  <!-- x=32.0-3.480   -->
+  </component>  
+
+  <type name="supermirror" /> 
+
+
+
+  
+  <!-- DETECTOR and MONITOR ID LISTS -->
+
+  
+
+  <idlist idname="monitor1">
+    <id val="1" />  
+  </idlist>
+  
+  <idlist idname="monitor2">
+    <id val="2" />  
+  </idlist>
+
+  <idlist idname="monitor3">
+    <id val="3" />  
+  </idlist>
+ 
+  <idlist idname="point-detector">
+    <id val="4" />  
+  </idlist>
+  
+  <idlist idname="point-detector2">
+    <id val="5" />  
+  </idlist>
+ <!-- 
+  <idlist idname="linear-detector">
+    <id start="2001" end="2240" />
+  </idlist>  
+  -->
+</instrument>
+