Table of Contents
Calculate the specular reflection two theta scattering angle (degrees) from the detector and sample locations .
Name | Direction | Type | Default | Description |
---|---|---|---|---|
InputWorkspace | Input | MatrixWorkspace | Mandatory | An Input workspace to calculate the specular relection theta on. |
AnalysisMode | Input | string | PointDetectorAnalysis | The type of analysis to perform. MultiDetectorAnalysis, LineDetectorAnalysis or MultiDetectorAnalysis. Used to help automatically determine the detector components to move. Allowed values: [‘PointDetectorAnalysis’, ‘LineDetectorAnalysis’, ‘MultiDetectorAnalysis’] |
DetectorComponentName | Input | string | Name of the detector component i.e. point-detector. If these are not specified, the algorithm will attempt lookup using a standard naming convention. | |
SampleComponentName | Input | string | Name of the sample component i.e. some-surface-holder. If these are not specified, the algorithm will attempt lookup using a standard naming convention. | |
SpectrumNumbersOfDetectors | Input | int list | A list of spectrum numbers making up an effective point detector. | |
StrictSpectrumChecking | Input | boolean | True | Enable, disable strict spectrum checking. Strict spectrum checking protects against non-sequential integers in which spectrum numbers are not in {min, min+1, ..., max} |
TwoTheta | Output | number | Calculated two theta scattering angle in degrees. |
Uses the Specular reflection condition to calculate and return a corrected .
The calculated theta value in degrees is returned by the algorithm.
Also see SpecularReflectionPositionCorrect v1
Example - Point detector theta calculation
# Set up an instrument with a 45 degree final two theta angle.
import os
instrument_def = os.path.join( config.getInstrumentDirectory() , "INTER_Definition.xml")
ws = LoadEmptyInstrument(instrument_def)
inst = ws.getInstrument()
ref_frame = inst.getReferenceFrame()
upoffset = ref_frame.vecPointingUp()
det_position = {ref_frame.pointingUpAxis(): 1.0, ref_frame.pointingAlongBeamAxis(): 1.0, ref_frame.pointingHorizontalAxis():0}
MoveInstrumentComponent(ws, 'point-detector',RelativePosition=False, **det_position)
MoveInstrumentComponent(ws, 'some-surface-holder',RelativePosition=False, X=0, Y= 0, Z=0)
# Calculate the two theta.
two_theta = SpecularReflectionCalculateTheta(InputWorkspace=ws, DetectorComponentName='point-detector', AnalysisMode='PointDetectorAnalysis')
print two_theta
Output:
90.0
Categories: Algorithms | Reflectometry
C++ source: SpecularReflectionCalculateTheta.cpp
C++ header: SpecularReflectionCalculateTheta.h