The IMAGING button will scan all spectral windows to identify whether they can be used to produce a Continuum or spectral line image.
Low resolution spectral windows, identified as those whose resolution is coarser than blueALL%MINFRES will be used to produce continuum images, by filtering any detected spectral signature in the data before.
High resolution spectral windows, identified as those whose resolution is better than blueALL%MINFRES, data cubes will be produced.
In SPLIT Mode, if a Line Catalog is present, these high spectral resolution windows will be scanned for line identifications. For each spectral line in the current catalog(s) (defined by command magentaCATALOG) that fall in a spectral window, a continuum-free UV table will be created, covering the velocity range specified by the user (by variable blueALL%RANGE) around the line frequency. The naming convention is the following:
original-molecule-I-Xwhere
In addition an
original-Cfile that contains (presumably) line-free emission only is created for each original UV table.
The imaging results are stored in a specific sub-directory (./MAPS/ by default, controlled by blueall%maps). Only the Clean Component Table (cyan.cct) and Clean image (cyan.lmv-clean) files are written.
When no Line catalog is present, only 3 images are produced for each UV tables: starting froml the original name
original-C original-U and original-AThe ...-C contains (an estimate of) line-free emission, averaged over the bandwidth of the UV data. The ...-U is the continuum subtracted image, while in ...-A the pseudo-continuum image obtained in ...-C has been added back. The ...-A thus contains all the signal, and can be used to provide a better estimate of the continuum level using e.g. the magentaMAP_CONTINUUM command.
Spectral resampling can be performed by appropriate setting of blueALL%RANGE. If non zero, blueALL%RANGE[3] indicates the desired spectral resolution. Furthermore, in the magentaCATALOG case, blueALL%RANGE[1:2], if non zero, specify the Min and Max velocities imaged around each spectral line.
In ALL mode, the behaviour is similar, but only the -C and -A products are created.
In CONTINUUM mode, line emission is assumed to be negligible, and only the -C continuum images are produced.
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Gildas manager
2023-06-01