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• EVLA Continuum Tutorial 3C391-CASA4.3
  [[Image:plotcal-3C286-G0all-phase-R-ea05.png|200px|thumb|right|Initial gain phases, R polar To really see what is going on, we use {{plotcal}} to inspect the solutions for a single antenna at a time, iterating throug
  120 KB (17,198 words) - 16:25, 20 April 2015
• VLA Continuum Intro Tutorial
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this
  124 KB (19,290 words) - 12:33, 23 April 2024
• EVLA Continuum Tutorial 3C391-CASA3.3
  One can now examine the phase solutions using {{plotcal}}. The inputs shown below plot the phase portion of the gain solutions as plotcal(caltable='3c391_ctm_mosaic_10s_spw0.G0', xaxis='time', yaxis='phase',
  94 KB (13,931 words) - 12:32, 9 April 2012
• VLA Continuum Tutorial 3C391-CASA5.4.0
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this * You should consider examining the solutions from {{gaincal}} by using {{plotcal}} in order to assure that the corrections are sensible. Smoothly varying p
  145 KB (21,313 words) - 19:35, 2 January 2019
• VLA Continuum Tutorial 3C391-CASA5.5.0
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this
  142 KB (20,826 words) - 13:06, 14 July 2020
• VLA Continuum Tutorial 3C391-CASA5.7.0
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this
  144 KB (21,056 words) - 15:58, 29 October 2020
• VLA Continuum Tutorial 3C391-CASA6.2.0
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this
  153 KB (22,510 words) - 11:29, 14 February 2023
• VLA Continuum Tutorial 3C391-CASA6.4.1
  ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this
  154 KB (22,682 words) - 12:13, 1 March 2024
• P-band spectral line tutorial-CASA5.0.0
  plotcal(caltable='3C129_pband.K1', xaxis='antenna', yaxis='delay', markersize=2.0, ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  53 KB (8,386 words) - 15:14, 19 July 2017
• VLA Radio galaxy 3C 129: P-band continuum tutorial-CASA4.7.0
  plotcal(caltable='3C129_pband.K1', xaxis='antenna', yaxis='delay', markersize=2.0, ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  53 KB (8,399 words) - 13:11, 20 April 2017
• P-band basic data reduction-CASA4.7
  plotcal(caltable='TSUB0001_pband.K1', xaxis='antenna', yaxis='delay', markersize=2. ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  52 KB (7,963 words) - 16:06, 10 October 2016
• 0313-192 P-band basic data reduction-CASA4.6
  plotcal(caltable='TSUB0001_pband.K1', xaxis='antenna', yaxis='delay', markersize=2. ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  52 KB (7,964 words) - 17:49, 3 January 2017
• VLA Radio galaxy 3C 129: P-band continuum tutorial-CASA5.3.0
  plotcal(caltable='3C129_pband.K1', xaxis='antenna', yaxis='delay', markersize=2.0, ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  55 KB (8,718 words) - 17:33, 13 February 2018
• EVLA Advanced Topics 3C391-CASA4.1
  * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth
  47 KB (7,334 words) - 19:42, 4 February 2014
• Advanced Topics 3C391 - CASA4.1
  * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth
  47 KB (7,335 words) - 19:50, 4 February 2014
• VLA Radio galaxy 3C 129: P-band continuum tutorial-CASA5.0.0
  plotcal(caltable='3C129_pband.K1', xaxis='antenna', yaxis='delay', markersize=2.0, ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  55 KB (8,756 words) - 12:10, 11 July 2018
• 0313-192 P-band basic data reduction-CASA4.4
  plotcal(caltable='TSUB0001_pband.K1', xaxis='antenna', yaxis='delay', markersize=2. ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  52 KB (7,963 words) - 17:54, 3 January 2017
• 0313-192 P-band basic data reduction-CASA4.5
  plotcal(caltable='TSUB0001_pband.K1', xaxis='antenna', yaxis='delay', markersize=2. ...from +/-180 to -/+180 degrees. If that is problematic, re-run the phase <i>plotcal()</i> with <i>plotrange = [ 200.,500.,0.,360. ]</i>. Also note that there a
  53 KB (8,002 words) - 17:53, 3 January 2017
• EVLA Advanced Topics 3C391 CASA 4.2
  * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth
  46 KB (7,311 words) - 14:10, 6 February 2014
• Advanced Topics 3C391 - CASA4.2
  * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth
  46 KB (7,311 words) - 13:51, 16 December 2014

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