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DgsProcessDetectorVanadium dialog.
Table of Contents
| Name | Direction | Type | Default | Description |
|---|---|---|---|---|
| InputWorkspace | Input | MatrixWorkspace | Mandatory | An input workspace containing the detector vanadium data in TOF units. |
| InputMonitorWorkspace | Input | MatrixWorkspace | A monitor workspace associated with the input workspace. | |
| MaskWorkspace | Input | MatrixWorkspace | A mask workspace | |
| OutputWorkspace | Output | MatrixWorkspace | Mandatory | The name for the output workspace. |
| ReductionProperties | Output | string |
This algorithm is responsible for processing the detector vanadium in the form required for the sample data normalisation in the convert to energy transfer process. Parameters in italics are controlled by the instrument parameter file (IPF) unless provided to the algorithm via a property manager. The mappings are given below.
| Parameter | IPF Mapping |
|---|---|
| DetVanIntRangeLow | wb-integr-min |
| DetVanIntRangeHigh | wb-integr-max |
Parameters in italics with dashed perimeters are only controllable by the IPF name given. All underlined parameters are fixed and not controllable. If the input detector vanadium is in TOF units and that is the requested units for integration, the ConvertUnits algorithm does not run. The range parameters feeding into Rebin are used to make a single bin. The resulting integrated vanadium workspace can be saved to a file using the reduction property manager with the boolean property SaveProcessedDetVan.
Warning
This algorithm is not really intended for use at the command line, but is used within DgsReduction.
Categories: AlgorithmIndex | Workflow\Inelastic\UsesPropertyManager
C++ header: DgsProcessDetectorVanadium.h (last modified: 2021-03-31)
C++ source: DgsProcessDetectorVanadium.cpp (last modified: 2021-03-31)
