CalMuonDeadTime v1

../_images/CalMuonDeadTime-v1_dlg.png

CalMuonDeadTime dialog.

Summary

Calculate Muon deadtime for each spectra in a workspace.

Properties

Name Direction Type Default Description
InputWorkspace Input MatrixWorkspace Mandatory Name of the input workspace
DeadTimeTable Output TableWorkspace Mandatory The name of the TableWorkspace in which to store the list of deadtimes for each spectrum
FirstGoodData Input number 0.5 The first good data point in units of micro-seconds as measured from time zero (default to 0.5)
LastGoodData Input number 5 The last good data point in units of micro-seconds as measured from time zero (default to 5.0)
DataFitted Output Workspace Mandatory The data which the deadtime equation is fitted to

Description

Calculate Muon deadtime for each spectra in a workspace.

Define:

 {\displaystyle{N}} = true count
 {\displaystyle{N_0}} = true count at time zero
 {\displaystyle{M}} = measured count
 {\displaystyle{t_{\mathrm{dead}}}} = dead-time
 {\displaystyle{t_{\mathrm{bin}}}} = time bin width
 {\displaystyle{t_{\mu}}} = Muon decay constant
 {\displaystyle{F}} = Number of good frames

The formula used to calculate the deadtime for each spectra:

M\exp \left( \frac{t}{t_{\mu}} \right)=N_0 - M*N_0*(\frac{t_{\mathrm{dead}}}{t_{\mathrm{bin}}*F})

where \displaystyle{M\exp ( t/t_{\mu})} as a function of {\displaystyle{M}} is a straight line with an intercept of {\displaystyle{N_0}} and a slope of {\displaystyle{N_0*(\frac{t_{\mathrm{dead}}}{t_{\mathrm{bin}}*F})}}.

The number of good frames is obtained from the sample log goodfrm in the input workspace. This log must be present for the algorithm to run successfully.

Usage

Note

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

Example - Calculating dead times for a file

ws = Load("MUSR00015189")
#CalMuonDeadTime outputs two workspaces so catch them both
(wsOut,wsFitted) = CalMuonDeadTime('ws_1')

print ("First five dead times:")
for i in range(5):
    print ("  Spectrum %i -> %.4f" % (wsOut.column(0)[i],wsOut.column(1)[i]))

Output:

First five dead times:
  Spectrum 1 -> -0.3135
  Spectrum 2 -> -0.2902
  Spectrum 3 -> -0.2746
  Spectrum 4 -> -0.3151
  Spectrum 5 -> -0.5266

Categories: Algorithms | Muon