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ResNorm v2

../_images/ResNorm-v2_dlg.png

ResNorm dialog.

Summary

Creates a group normalisation file by taking a resolution file

and fitting it to all the groups in the resolution (vanadium) reduction.

Properties

Name

Direction

Type

Default

Description

ResolutionWorkspace

Input

MatrixWorkspace

Mandatory

Workspace containing resolution

VanadiumWorkspace

Input

MatrixWorkspace

Mandatory

Workspace containing reduction of vanadium run

EnergyMin

Input

number

-0.2

Minimum energy for fit. Default=-0.2

EnergyMax

Input

number

0.2

Maximum energy for fit. Default=0.2

CreateOutput

Input

boolean

False

Create additional fitting output

OutputWorkspace

Output

WorkspaceGroup

Mandatory

Fitted parameter output

OutputWorkspaceTable

Output

TableWorkspace

Table workspace of fit parameters

Description

This algorithm fits the variation of the width of the resolution file to give a stretch factor and fits the peak intensities by normalising the peak area to unity and performing a linear fit with the vanadium.

The outpout workspace is a WorkspaceGroup containing two MatrixWorkspaces named _Intensity and _Stretch with the fitted parameters.

Workflow

../_images/ResNorm-v2_wkflw.svg

Usage

Example - a basic example using ResNorm.

def createSampleWorkspace(name, num_spec=10, random=False):
  """
  Creates a sample workspace with a single lorentzian that looks like IRIS data
  """
  import os

  # Create sample data
  function = "name=Lorentzian,Amplitude=8,PeakCentre=5,FWHM=0.7"
  ws = CreateSampleWorkspace("Histogram",
                             Function="User Defined",
                             UserDefinedFunction=function,
                             XUnit="DeltaE",
                             Random=random,
                             XMin=0,
                             XMax=10,
                             BinWidth=0.01)

  # Reduce number of spectra
  ws = CropWorkspace(ws,
                     StartWorkspaceIndex=0,
                     EndWorkspaceIndex=num_spec-1)

  ws = ScaleX(ws, -5, "Add")
  ws = ScaleX(ws, 0.1, "Multiply")

  # Load instrument and instrument parameters
  LoadInstrument(ws, InstrumentName='IRIS', RewriteSpectraMap=True)
  path = os.path.join(config['instrumentDefinition.directory'], 'IRIS_graphite_002_Parameters.xml')
  LoadParameterFile(ws, Filename=path)
  ws = RenameWorkspace(ws, OutputWorkspace=name)

  return ws


van = createSampleWorkspace("irs26173_graphite002_red", random=True)
res = createSampleWorkspace("irs26173_graphite002_res", num_spec=1)

res_norm = ResNorm(ResolutionWorkspace=res,
                   VanadiumWorkspace=van,
                   Version=2)

Categories: AlgorithmIndex | Workflow\MIDAS

Source

Python: ResNorm2.py