Making image cubes

WSClean allows making image cubes, but it works slightly different compared to CASA. The following section describes how it works in WSClean.

To make image cubes with WSClean, the ‘-channels-out’ parameter is used. This parameter specifies the number of different frequencies for which information will be present in the output.

Assume we have a measurement set ‘myobservation.ms’ with 100 channels. To image each channel seperately, ‘-channels-out 100’ is added to the command line, for example:

wsclean -scale 1amin -size 3072 3072 -niter 1000 -threshold 1 \
  -channels-out 100 myobservation.ms

This will output 100 images, named wsclean-0000-image.fits, wsclean-0001-image.fits, …, wsclean-0099-image.fits (and similarly for the psf, residual and dirty). Additionally, images named like wsclean-MFS-image.fits will be outputted, which are the weighted sum over all 100 images.

WSClean does not output these images in a normal “imaging cube” like CASA does, i.e., a single fits file with several images in it. For now I’ve decided not to implement this (one of the reasons for this is that information about the synthesized beam is not properly stored in a multi-frequency fits file). One has of course the option to combine the output manually, e.g. with a simple Python script.

When you are interested in only a partial range of channels, the ‘-channel-range’ parameter can be used to select that range. For example:

wsclean -scale 1amin -size 3072 3072 -niter 1000 -threshold 1 \
  -channel-range 60 70 -channels-out 10 myobservation.ms

This would image channels 60 to 70 and output separate images for each channel.

The channelsout parameter can be smaller than the available number of input channels. For example, a measurement set with 100 channels can be imaged with “-channels-out 2”, which will divide the bandwidth in 2 and output 2 images. Furthermore, you can also specify multiple measurement sets at different frequencies. In such a case, the total bandwidth will be divided into the requested number of channels. For example:

Example:

wsclean -channels-out 3 -niter 10000 -mgain 0.8 -threshold 0.01 \
  band-100-MHz.ms band-110-MHz.ms band-145-MHz.ms \
  band-155-MHz band-190-MHz.ms band-200-MHz

This will output images at 105 MHz, 150 MHz and 195 MHz.

Some more notes:

  • The ‘-channels-out’ parameter can be used in combination with ‘-join-channels’ to improve the deconvolution of MFS imaging in wideband scenarios, or to get better SNR during the deconvolution of spectral imaging. This is explained on the Wideband deconvolution page.

  • WSClean normally weights each output channel separately. This is equivalent to how other imagers do this. However, this is not always desired, especially not with modern correlators with large number of channels. Therefore, a special weighting mode called ‘MF weighting’ has been implemented in WSClean to improve weighting of spectral cubes. This is further explained on the MF weighting page.