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Table of Contents
This algorithm performs an integration over an energy range, with the option to subtract a background over a second range, then transposes the result into a single-spectrum workspace with units in Q and Q^2.
Name | Direction | Type | Default | Description |
---|---|---|---|---|
InputWorkspace | Input | MatrixWorkspace | Mandatory | The input workspace. |
OutputInQ | Output | MatrixWorkspace | Mandatory | The name for output workspace with the X axis in units of Q |
OutputInQSquared | Output | MatrixWorkspace | Mandatory | The name for output workspace with the X axis in units of Q^2. |
IntegrationRangeStart | Input | number | Mandatory | Start Point of Range 1 |
IntegrationRangeEnd | Input | number | Mandatory | End Point of Range 1 |
BackgroundRangeStart | Input | number | Optional | Start Point of Range 2 |
BackgroundRangeEnd | Input | number | Optional | End Point of Range 2. |
This algorithm Integrates over the range specified, converts the spectrum axis into units of Q and Q^{2} and transposes the result workspaces.
There are two output workspaces.
# Prepare a workspace that has all necessary settings to work with ElasticWindow
ws = CreateSampleWorkspace(Function='User Defined',
UserDefinedFunction='name=Lorentzian,Amplitude=100,PeakCentre=27500,FWHM=20',
XMin=27000,
XMax=28000,
BinWidth=10,
NumBanks=1)
ws = ConvertUnits(ws, 'DeltaE',
EMode='Indirect',
EFixed=1.555)
ws = Rebin(ws, [-0.2,0.004,0.2])
SetInstrumentParameter(ws, 'Efixed',
DetectorList=range(100,200),
ParameterType='Number',
Value='1.555')
# Run the algorithm
q, q2 = ElasticWindow(ws, -0.1, 0.1)
print(q.getAxis(0).getUnit().caption())
print(q2.getAxis(0).getUnit().caption())
q
Q2
Categories: AlgorithmIndex | Inelastic\Indirect