; DOBAND ;--------------------------------------------------------------- ;! specifies if/how bandpass calibration is applied ;# ADVERB CALIBRATION ;----------------------------------------------------------------------- ;; Copyright (C) 1995, 1997, 2020 ;; Associated Universities, Inc. Washington DC, USA. ;; ;; This program is free software; you can redistribute it and/or ;; modify it under the terms of the GNU General Public License as ;; published by the Free Software Foundation; either version 2 of ;; the License, or (at your option) any later version. ;; ;; This program is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; ;; You should have received a copy of the GNU General Public ;; License along with this program; if not, write to the Free ;; Software Foundation, Inc., 675 Massachusetts Ave, Cambridge, ;; MA 02139, USA. ;; ;; Correspondence concerning AIPS should be addressed as follows: ;; Internet email: aipsmail@nrao.edu. ;; Postal address: AIPS Project Office ;; National Radio Astronomy Observatory ;; 520 Edgemont Road ;; Charlottesville, VA 22903-2475 USA ;----------------------------------------------------------------------- ;--------------------------------------------------------------- DOBAND LLLLLLLLLLLLUUUUUUUUUUUU CCCCCCCCCCCCCCCCCCCCCCCCCCCCC ---------------------------------------------------------------- DOBAND Type: Adverb (Scalar) Use: Bandpass correction adverb. If > 1 then the uv data will be corrected for the bandpass response of the antennas (stored in a BP table). The adverb has five modes: (1) if = 1 then all the bandpass data for each antenna will be averaged to form a composite bandpass spectrum, this will then be used to correct the data. (2) if = 2 the bandpass spectra nearest in time (in a weighted sense) to the uv data point will be used to correct the data. (3) if = 3 the bandpass data will be interpolated in time using the solution weights to form a composite bandpass spectrum, this interpolated spectrum will then be used to correct the data. (4) if = 4 the bandpass spectra nearest in time (neglecting weights) to the uv data point will be used to correct the data. (5) if = 5 the bandpass data will be interpolated in time ignoring weights to form a composite bandpass spectrum, this interpolated spectrum will then be used to correct the data. The adverb is only valid if the data have a BP extension table. Null value: false (-1) Verbs: OBITIMAG......Access to OBIT task Imager without self-cal or peeling. OBITPEEL......Access to OBIT task Imager with self-cal and peeling. OBITSCAL......Access to OBIT task Imager with self-cal, NOT peeling. Procedures: LINIMAGE......Build image cube from multi-IF data set. VLACALIB......Runs CALIB and LISTR for VLA observation. Tasks: ACFIT.........Determine antenna gains from autocorrelations. ACLIP.........Edits suto-corr data for amplitudes, phases, and weights out of range. ACSCL.........Corrects cross amplitudes using auto correlation measurements. ALVAR.........Plots the Allan Variance statistic of a UV data set. ALVPR.........Prints statistics on the Allan Variance of a UV data set. ANBPL.........Plots and prints uv data converted to antenna based values. AVSPC.........Averages uv-data in the frequency domain. BLCAL.........Compute closure offset corrections. BLCHN.........Compute closure offset corrections on a channel-by-channel basis. BLING.........Find residual rate and delay on individual baselines. BPASS.........Computes spectral bandpass correction table. BPWAY.........Determines channel-dependent relative weights. BPWGT.........Calibrates data and scales weights by bandpass correction. BSCAN.........Seeks best scan to use for phase cal, fringe search, .. CALIB.........Determines antenna calibration: complex gain. CAPLT.........Plots closure amplitude and model from CC file. CLIP..........Edits data based on amplitudes, phases, and weights out of range. CLPLT.........Plots closure phase and model from CC file. CORER.........Calculates correlator statistics and flags bad ones. CPASS.........Computes polynomial spectral bandpass correction table. CVEL..........Shifts spectral-line UV data to a given velocity. DECOR.........Measures the decorrelation between channels and IF of uv data. DEFLG.........Edits data based on decorrelation over channels and time. DFTIM.........Makes image of DFT at arbitrary point showing time vs frequency. DFTPL.........Plots DFT of a UV data set at arbitrary point versus time. DIFRL.........Divides the RR data by LL data. DTSUM.........Task to provide a summary of the contents of a dataset. EDITR.........Interactive baseline-oriented visibility editor using the TV. EVAUV.........Subtracts & divides a model into UV data, does statistics on results. FGCNT.........Counts samples comparing two flag tables. FGSPW.........Flags bad spectral windows. FINDR.........Find normal values for a uv data set. FLAGR.........Edit data based on internal RMS, amplitudes, weights. FLGIT.........Flags data based on the rms of the spectrum. FLOPM.........Reverses the spectral order of UV data, can fix VLA error. FRING.........Fringe fit data to determine antenna calibration, delay, rate. FRMAP.........Task to build a map using fringe rate spectra. FRPLT.........Task to plot fringe rate spectra. FTFLG.........Interactive flagging of UV data in channel-time using the TV. FUDGE.........Modifies UV data with user's algorithm: paraform task. IBLED.........Interactive BaseLine based visibility EDitor. IMAGR.........Wide-field and/or wide-frequency Cleaning / imaging task. KRING.........Fringe fit data to determine antenna calibration, delay, rate. LISTR.........Prints contents of UV data sets and assoc. calibration tables. LPCAL.........Determines instrumental polarization for UV data. MAPBM.........Map VLA beam polarization. NOIFS.........Makes all IFs into single spectrum. OMFIT.........Fits sources and, optionally, a self-cal model to uv data. PCAL..........Determines instrumental polarization for UV data. PCVEL.........Shifts spectral-line UV data to a given velocity: planet version. PHSRF.........Perform phase-referencing within a spectral line database. POSSM.........Task to plot total and cross-power spectra. REWAY.........Computes weights based in rms in spectra. RFI...........Look for RFI in uv data. RFLAG.........Flags data set based on time and freq rms in fringe visibilities. RLCAL.........Determines instrumental right-left phase versus time (a self-cal). RLDIF.........Determines Right minus Left phase difference, corrects cal files. RLDLY.........Fringe fit data to determine antenna R-L delay difference. SCIMG.........Full-featured imaging plus self-calibration loop with editing. SCMAP.........Imaging plus self-calibration loop with editing. SHOUV.........Displays uv data in various ways. SPCAL.........Determines instrumental polzn. for spec. line UV data. SPFLG.........Interactive flagging of UV data in channel-TB using the TV. SPLAT.........Applies calibration and splits or assemble selected sources. SPLIT.........Converts multi-source to single-source UV files w calibration. SPMOD.........Modify UV database by adding a model with spectral lines. SPRMS.........Plots spectral statistics of a selected subset of a uv data set. SUFIX.........Modifies source numbers on uv data. TI2HA.........Modifies times in UV data to hour angles. TIORD.........Checks data for time baseline ordering, displays failures. TRUEP.........Determines true antenna polarization from special data sets. TVFLG.........Interactive flagging of UV data using the TV. UFLAG.........Plots and edits data using a uv-plane grid and the TV. UV2MS.........Append single-source file to multi-source file. UV2TB.........Converts UV autocorrelation spectra to tables. UVAVG.........Average or merge a sorted (BT, TB) uv database. UVBAS.........Averages several channels and subtracts from uv data. UVFIT.........Fits source models to uv data. UVFND.........Prints selected data from UV data set to search for problems. UVFRE.........Makes one data set have the spectral structure of another. UVGIT.........Fits source models to uv data. UVHGM.........Plots statistics of uv data files as histogram. UVHIM.........Makes image of the histogram on two user-chosen axes. UVHOL.........Prints holography data from a UV data base with calibration. UVIMG.........Grid UV data into an "image". UVLIN.........Fits and removes continuum visibility spectrum, also can flag. UVLSD.........Least squares fit to channels and divides the uv data. UVLSF.........Least squares fit to channels and subtracts from uv data. UVMLN.........Edits data based on the rms of the spectrum. UVMOD.........Modify UV database by adding a model incl spectral index. UVMTH......... Averages one data set and applied it to another. UVPLT.........Plots data from a UV data base in multiple ways. UVPRM.........Measures parameters from a UV data base. UVPRT.........Prints data from a UV data base with calibration. UVRFI.........Mitigate RFI by Fourier transform or fitting the circle. UVRMS.........Computes statistics of a selected subset of a uv data set. VPLOT.........Plots uv data and model from CC file. WIPER.........Plots and edits data from a UV data base using the TV. XYDIF.........Find/apply X minus Y linear polarization phase difference. XYMOD.........Compute linear polarization point source model, applies to data. ----------------------------------------------------------------