\(\renewcommand\AA{\unicode{x212B}}\)

FindReflectometryLines v2

../_images/FindReflectometryLines-v2_dlg.png

FindReflectometryLines dialog.

Summary

Finds fractional workspace index corresponding to reflected or direct line in a line detector workspace.

Properties

Name Direction Type Default Description
InputWorkspace Input MatrixWorkspace Mandatory A reflectometry workspace.
OutputWorkspace Output MatrixWorkspace   A workspace containing the fractional workspace index of the line centre.
LineCentre Output number   The fractional workspace index of the line centre
RangeLower Input number Optional The lower peak search limit (an X value).
RangeUpper Input number Optional The upper peak search limit (an X value).
StartWorkspaceIndex Input number 0 Index of the first histogram to include in the peak search.
EndWorkspaceIndex Input number Optional Index of the last histogram to include in the peak search.

Description

This algorithm finds the line position in a line detector reflectometry dataset. It integrates InputWorkspace over the \(X\) axis and fits the sum of a Gaussian and a linear background to the integral. The center of the Gaussian, a fractional workspace index to the InputWorkspace, is returned as a single valued workspace in OutputWorkspace and as a plain number in the LineCentre output property.

The integration region can be constrained by RangeLower and RangeUpper which restrict the \(X\) range. Further, the peak fitting can be controlled by StartWorkspaceIndex and EndWorkspaceIndex which limit the workspace index range.

If the peak fitting fails, the algorithm logs a warning and returns the workspace index of the integral maximum.

Usage

Note

To run these usage examples please first download the usage data, and add these to your path. In Mantid this is done using Manage User Directories.

Example - FindReflectometryLines

LoadISISNexus('POLREF00004699.nxs', OutputWorkspace='ws', LoadMonitors='Exclude')
# 'ws' is a group workspace -> OutputWorkspace is a group as well
FindReflectometryLines('ws', OutputWorkspace='pos')
# Access individual outputs
pos1 = mtd['pos_1']
pos2 = mtd['pos_2']
print('Line position in the 1st workspace: {:.3}'.format(pos1.readY(0)[0]))
print('Line position in the 2nd workspace: {:.3}'.format(pos2.readY(0)[0]))
# With single workspaces one can use the named tuple output
out = FindReflectometryLines('ws_1')
print('Line position from the returned tuple: {:.3}'.format(out.LineCentre))

Output:

Line position in the 1st workspace: 25.7
Line position in the 2nd workspace: 25.7
Line position from the returned tuple: 25.7

Categories: AlgorithmIndex | Reflectometry | ILL\Reflectometry

Source

C++ header: FindReflectometryLines2.h (last modified: 2020-06-22)

C++ source: FindReflectometryLines2.cpp (last modified: 2021-05-24)