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DgsConvertToEnergyTransfer v1

../_images/DgsConvertToEnergyTransfer-v1_dlg.png

DgsConvertToEnergyTransfer dialog.

Summary

Algorithm to convert from TOF to energy transfer.

Properties

Name

Direction

Type

Default

Description

InputWorkspace

Input

MatrixWorkspace

Mandatory

A sample data workspace.

InputMonitorWorkspace

Input

MatrixWorkspace

A monitor workspace associated with the sample workspace.

IncidentEnergyGuess

Input

number

Optional

This is the starting point for the incident energy calculation.

IntegratedDetectorVanadium

Input

MatrixWorkspace

A workspace containing the integrated detector vanadium.

MaskWorkspace

Input

MatrixWorkspace

A mask workspace

GroupingWorkspace

Input

MatrixWorkspace

A grouping workspace

AlternateGroupingTag

Input

string

Allows modification to the OldGroupingFile property name

OutputWorkspace

Output

MatrixWorkspace

Mandatory

The name for the output workspace.

OutputTibWorkspace

Output

MatrixWorkspace

Mandatory

The name for the output TIB workspace.

ReductionProperties

Input

string

__dgs_reduction_properties

Description

This algorithm is responsible for making the conversion from time-of-flight to energy transfer for direct geometry spectrometers. The diagram below shows the workflow for the algorithm. The SNS instruments have a log called EnergyRequest which allows the IncidentEnergyGuess parameter to be left blank. Also, SNS instruments need to pass a monitor workspace to GetEi since they are separate from the sample workspace. 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

TibTofRangeStart

bkgd-range-min

TibTofRangeEnd

bkgd-range-max

Parameters in italics with dashed perimeters are only controllable by the IPF name given. All underlined parameters are fixed and not controllable. The EnergyTransferRange parameter takes the canonical Mantid notation of (start, step, stop). However, it can be left blank and the following values will be used \((-0.5E^{Guess}_{i}, 0.01E^{Guess}_{i}, 0.99E^{Guess}_{i})\).

The use of the SofPhiEIsDistribution parameter in the last Rebin call is used to set the Rebin algorithm parameter PreserveEvents.

Workflow

DgsConvertToEnergyTransferWorkflow.png

Usage

Warning

This algorithm is not really intended for use at the command line, but is used within DgsReduction.

Categories: AlgorithmIndex | Workflow\Inelastic\UsesPropertyManager

Source

C++ header: DgsConvertToEnergyTransfer.h

C++ source: DgsConvertToEnergyTransfer.cpp