Cvel
From CASA Guides
Help on cvel task:
regrid an MS to a new spectral window / channel structure or frame
vis -- Name of input visibility file default: none; example: vis='ngc5921.ms'
outputvis -- Name of output measurement set (required) default: none; example: vis='ngc5921-regridded.ms'
passall -- if False, data not meeting the selection is omitted/deleted or flagged (if in-row); if True, data not meeting the selection on field and spw is passed through without modification default: False; example: field='NGC5921' passall=False : only data from NGC5921 is included in output MS, no data from other fields (e.g. 1331+305) is included passall=True : data from NGC5921 is transformed by cvel, all other fields are passed through unchanged
field -- Select fields in mosaic. Use field id(s) or field name(s). ['go listobs' to obtain the list id's or names] default: = all fields If field string is a non-negative integer, it is assumed to be a field index otherwise, it is assumed to be a field name field='0~2'; field ids 0,1,2 field='0,4,5~7'; field ids 0,4,5,6,7 field='3C286,3C295'; field named 3C286 and 3C295 field = '3,4C*'; field id 3, all names starting with 4C
spw --Select spectral window/channels NOTE: This selects the data passed as the INPUT to mode default: =all spectral windows and channels spw='0~2,4'; spectral windows 0,1,2,4 (all channels) spw='0:5~61'; spw 0, channels 5 to 61 spw='<2'; spectral windows less than 2 (i.e. 0,1) spw='0,10,3:3~45'; spw 0,10 all channels, spw 3, channels 3 to 45. spw='0~2:2~6'; spw 0,1,2 with channels 2 through 6 in each. spw='0:0~10;15~60'; spectral window 0 with channels 0-10,15-60 spw='0:0~10,1:20~30,2:1;2;3'; spw 0, channels 0-10, spw 1, channels 20-30, and spw 2, channels, 1,2 and 3
selectdata -- Other data selection parameters default: True
>>> selectdata=True expandable parameters
antenna -- Select data based on antenna/baseline default: (all) If antenna string is a non-negative integer, it is assumed to be an antenna index, otherwise, it is considered an antenna name. antenna='5&6'; baseline between antenna index 5 and index 6. antenna='VA05&VA06'; baseline between VLA antenna 5 and 6. antenna='5&6;7&8'; baselines 5-6 and 7-8 antenna='5'; all baselines with antenna index 5 antenna='05'; all baselines with antenna number 05 (VLA old name) antenna='5,6,9'; all baselines with antennas 5,6,9 index numbers
timerange -- Select data based on time range: default = (all); examples, timerange = 'YYYY/MM/DD/hh:mm:ss~YYYY/MM/DD/hh:mm:ss' Note: if YYYY/MM/DD is missing date defaults to first day in data set timerange='09:14:0~09:54:0' picks 40 min on first day timerange= '25:00:00~27:30:00' picks 1 hr to 3 hr 30min on NEXT day timerange='09:44:00' pick data within one integration of time timerange='>10:24:00' data after this time
scan -- Scan number range. default: (all) example: scan='1~5' Check 'go listobs' to insure the scan numbers are in order.
array -- Select data by (sub)array indices default: (all); example: array='0~2'; arrays 0 to 2
mode -- Frequency Specification: NOTE: See examples below: default: 'channel' mode = 'channel'; Use with nchan, start, width to specify output spw. Produces equidistant grid based on first selected channel. See examples below. mode = 'velocity', means channels are specified in velocity. mode = 'frequency', means channels are specified in frequency. mode = 'channel_b', alternative 'channel' mode. Does not force an equidistant grid. Faster.
>>> mode expandable parameters Start, width are given in units of channels, frequency or velocity as indicated by mode nchan -- Number of channels in output spw default: -1 = all channels; example: nchan=3 start -- Start input channel (relative-0) default=0; example: start=5 width -- Output channel width in units of the input channel width (>1 indicates channel averaging) default=1; example: width=4 interpolation -- Interpolation method default = 'linear' examples: spw = '0,1'; mode = 'channel' will produce a single spw containing all channels in spw 0 and 1 spw='0:5~28^2'; mode = 'channel' will produce a single spw made with channels (5,7,9,...,25,27) spw = '0'; mode = 'channel': nchan=3; start=5; width=4 will produce an spw with 3 output channels new channel 1 contains data from channels (5+6+7+8) new channel 2 contains data from channels (9+10+11+12) new channel 3 contains data from channels (13+14+15+16) spw = '0:0~63^3'; mode='channel'; nchan=21; start = 0; 0 and 1 spw='0:5~28^2'; mode = 'channel' will produce a single spw made with channels (5,7,9,...,25,27) spw = '0'; mode = 'channel': nchan=3; start=5; width=4 will produce an spw with 3 output channels new channel 1 contains data from channels (5+6+7+8) new channel 2 contains data from channels (9+10+11+12) new channel 3 contains data from channels (13+14+15+16) spw = '0:0~63^3'; mode='channel'; nchan=21; start = 0; width = 1 will produce an spw with 21 channels new channel 1 contains data from channel 0 new channel 2 contains data from channel 2 new channel 21 contains data from channel 61 spw = '0:0~40^2'; mode = 'channel'; nchan = 3; start = 5; width = 4 will produce an spw with three output channels new channel 1 contains channels (5,7) new channel 2 contains channels (13,15) new channel 3 contains channels (21,23)
phasecenter -- direction measure or fieldid for the mosaic center default: => first field selected ; example: phasecenter=6 or phasecenter='J2000 19h30m00 -40d00m00'
restfreq -- Specify rest frequency to use for output image default= Occasionally it is necessary to set this (for example some VLA spectral line data). For example for NH_3 (1,1) put restfreq='23.694496GHz'
outframe -- output reference frame default= (keep original reference frame) ; example: outframe='bary'
veltype -- definition of velocity (in mode) default = 'radio'
hanning -- if true, Hanning smooth frequency channel data to remove Gibbs ringing