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

The Tabs - Home

Home

When launched, the Muon Analysis GUI defaults to the Home tab. This tab allows:

  • Data files to be loaded.
  • Run information to be viewed.
  • Time zero, first good data and last good data to be set.
  • Deadtime corrections to be set
  • Data binning to be modifed.

Loading a Workspace

To load a file either: Browse or Load Current Run or simply type a run number (assuming you have defined the directory(ies) in which your files are stored) When typing a run number, or using the ‘Load Current Run’ option, first select the desired instrument from the dropdown list.

To demonstrate: 1. Select ‘MUSR’ in the instrument drop-down menu 2. Type run number ‘24563’ in the Loading section and press enter, note this can only be done if the correct reference material folder was selected in Getting Started. This process shown in Figure 16.

NB the plot’s appearance will vary based on the Time axis and Rebin data values as described later in this section and Other Mantid Functions and Basic Data Manipulation

../../_images/thetabshomefig16.gif

Figure 16: How to load a workspace in the Muon Analysis GUI.

Regardless of the data input method used, the ‘Time Zero’ (\({\mu s}\)), ‘First Good Data’ (\({\mu s}\)) and ‘Last Good Data’ (\({\mu s}\)) values are automatically updated. These values have been determined by the instrument scientist during instrument calibration periods, and are stored in the header block of the raw .nxs data files, which are saved once a measurement is finished. Once a data file has been successfully read, a new plot window like the one shown in Fig. 2(b) will appear.

NB: when browsing for files multiple files such as `15190,15193` or a string like `15190-3` can be selected (the latter would load runs from `15190` to `15193`). The selected files will each be loaded into a different workspace.

Data Binning

Data can be re-binned via the home tab by using the Rebin section. The options are None for no binning, Fixed to use a given value (entered in the`Steps` box to the right) or Variable, for binning with various steps. When entering values in the Steps box, do so as for parameters in the Rebin algorithm.

For example, to set the plot to a fixed bin-width of choice, follow the instructions below

  1. Load HIFI run number 00062798 (as described above).
  2. In the Rebin section of the Home tab, use the drop-down menu and change its value from None to Fixed.
  3. In the box adjacent to it, input a suitable value - 10 is suggested - and press enter. This will cause a new workspace, HIFI62798; Pair Asym; long; Rebin; MA to appear in HIFI62798.
  4. The effect of rebinning is best viewed on only a certain portion of the data, use the Figure options as described in the Overlaying and Styling Plots section of Other Mantid Functions and Basic Data Manipulation
  5. Go to the ADS and plot HIFI62798; Pair Asym; long; MA.
  6. Navigate to, HIFI62798; Pair Asym; long; Rebin; MA, then right click it and select Plot > Overplot spectrum with errors. The rebinned data should appear over the unbinned dataset. If this does not happen, check the Loading Data section of Other Mantid Functions and Basic Data Manipulation and ensure the plotting has been carried out correctly. An example of this process is shown in Figure 17 below.
../../_images/thetabshomefig17.gif

Figure 17: How to re-bin data, in this example from a width of 10 to 20 on the HIFI00062798 dataset.

A summary of each input field in the Home tab, and a description of its function(s) can be found in Muon Analysis under Home.