CylinderPaalmanPingsCorrection v2

../_images/CylinderPaalmanPingsCorrection-v2_dlg.png

CylinderPaalmanPingsCorrection dialog.

Summary

Calculates absorption corrections for a cylindrical or annular sample using Paalman & Pings format.

Properties

Name Direction Type Default Description
SampleWorkspace Input MatrixWorkspace Mandatory Name for the input Sample workspace.
SampleChemicalFormula Input string Mandatory Sample chemical formula
SampleNumberDensity Input number 0.1 Sample number density
SampleInnerRadius Input number 0.05 Sample inner radius
SampleOuterRadius Input number 0.1 Sample outer radius
CanWorkspace Input MatrixWorkspace   Name for the input Can workspace.
CanChemicalFormula Input string   Can chemical formula
CanNumberDensity Input number 0.1 Can number density
CanOuterRadius Input number 0.15 Can outer radius
BeamHeight Input number 3 Beam height
BeamWidth Input number 2 Beam width
StepSize Input number 0.002 Step size
Interpolate Input boolean True Interpolate the correction workspaces to match the sample workspace
NumberWavelengths Input number 10 Number of wavelengths for calculation
Emode Input string Elastic Energy transfer mode. Allowed values: [‘Elastic’, ‘Indirect’, ‘Direct’]
Efixed Input number 1 Analyser energy
OutputWorkspace Output WorkspaceGroup Mandatory The output corrections workspace group

Description

Calculates absorption corrections for a cylindrical or annular sample giving output in the Paalman & Pings absorption factors: A_{s,s} (correction factor for scattering and absorption in sample), A_{s,sc} (scattering in sample and absorption in sample and container), A_{c,sc} (scattering in container and absorption in sample and container) and A_{c,c} (scattering and absorption in container).

Restrictions on the input workspace

The input workspace must have a fully defined instrument that has X axis units of wavelength.

Usage

Example:

# Create a sample workspace
sample = CreateSampleWorkspace(NumBanks=1, BankPixelWidth=1,
                               XUnit='Wavelength',
                               XMin=6.8, XMax=7.9,
                               BinWidth=0.1)

# Copy and scale it to make a can workspace
can = CloneWorkspace(InputWorkspace=sample)
can = Scale(InputWorkspace=can, Factor=1.2)

# Calculate absorption corrections
corr = CylinderPaalmanPingsCorrection(SampleWorkspace=sample,
                                      SampleChemicalFormula='H2-O',
                                      SampleInnerRadius=0.05,
                                      SampleOuterRadius=0.1,
                                      CanWorkspace=can,
                                      CanChemicalFormula='V',
                                      CanOuterRadius=0.15,
                                      BeamHeight=0.1,
                                      BeamWidth=0.1,
                                      StepSize=0.002,
                                      Emode='Indirect',
                                      Efixed=1.845)

print 'Correction workspaces: %s' % (', '.join(corr.getNames()))

Output:

Correction workspaces: corr_ass, corr_assc, corr_acsc, corr_acc

Categories: Algorithms | Workflow\MIDAS | CorrectionFunctions\AbsorptionCorrections