Search results
From CASA Guides
Jump to navigationJump to search
- plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \ plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \26 KB (3,524 words) - 10:41, 14 June 2016
- plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \ plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \26 KB (3,524 words) - 13:14, 20 April 2017
- plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \ plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \26 KB (3,524 words) - 11:47, 18 November 2016
- plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \ plotcal(caltable='calG192.G0', xaxis='time', yaxis='phase', \27 KB (3,594 words) - 18:15, 20 July 2017
- [[Image:plotcal-3C286-G0all-phase-R-ea05.png|200px|thumb|right|Figure 5: Initial gain phase To really see what is going on, we use '''{{plotcal}}''' to inspect the solutions from '''{{gaincal}}''' for a single antenna a168 KB (25,178 words) - 19:39, 25 August 2016
- [[Image:plotcal-3C286-G0all-phase-R-ea05.png|200px|thumb|right|Figure 5: Initial gain phase To really see what is going on, we use '''{{plotcal}}''' to inspect the solutions from '''{{gaincal}}''' for a single antenna a170 KB (25,424 words) - 14:50, 6 June 2017
- [[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 throug163 KB (24,232 words) - 18:34, 16 July 2015
- [[Image:plotcal-3C286-G0all-phase-R-ea05.png|200px|thumb|right|Figure 5: Initial gain phase To really see what is going on, we use '''{{plotcal}}''' to inspect the solutions for a single antenna at a time, iterating thr163 KB (24,302 words) - 18:13, 10 March 2016
- [[Image:plotcal-3C286-G0all-phase-R-ea05.png|200px|thumb|right|Figure 5: Initial gain phase ...''[https://casa.nrao.edu/casadocs/casa-5.0.0/global-task-list/task_plotcal plotcal]''' to inspect the solutions from '''[https://casa.nrao.edu/casadocs/casa-5178 KB (26,597 words) - 19:03, 30 October 2018
- plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp', plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp',27 KB (3,654 words) - 14:39, 6 November 2018
- [[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 throug116 KB (17,150 words) - 17:11, 22 October 2012
- [[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 throug117 KB (17,075 words) - 16:16, 30 May 2013
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth29 KB (4,851 words) - 12:30, 9 April 2012
- plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp', plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp',28 KB (3,769 words) - 11:37, 10 July 2019
- plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp', plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp',28 KB (3,783 words) - 13:04, 13 November 2020
- plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp', plotcal(caltable='calG192.G1', xaxis='time', yaxis='amp',29 KB (3,922 words) - 11:40, 2 May 2022
- [[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 throug115 KB (16,402 words) - 19:49, 4 February 2014
- [[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 throug115 KB (16,434 words) - 20:08, 6 May 2013
- [[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 throug116 KB (16,619 words) - 13:26, 6 February 2014
- [[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 throug116 KB (16,620 words) - 13:50, 16 December 2014
- [[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 throug120 KB (17,198 words) - 16:25, 20 April 2015
- ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this124 KB (19,290 words) - 12:33, 23 April 2024
- 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
- ...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 p145 KB (21,313 words) - 19:35, 2 January 2019
- ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this142 KB (20,826 words) - 13:06, 14 July 2020
- ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this144 KB (21,056 words) - 15:58, 29 October 2020
- ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this153 KB (22,510 words) - 11:29, 14 February 2023
- ...caltable") still reflect the original design for plotms. Examples of using plotcal to examine calibration tables can be found in the earlier versions of this154 KB (22,682 words) - 12:13, 1 March 2024
- 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 a53 KB (8,386 words) - 15:14, 19 July 2017
- 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 a53 KB (8,399 words) - 13:11, 20 April 2017
- 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 a52 KB (7,963 words) - 16:06, 10 October 2016
- 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 a52 KB (7,964 words) - 17:49, 3 January 2017
- 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 a55 KB (8,718 words) - 17:33, 13 February 2018
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,334 words) - 19:42, 4 February 2014
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,335 words) - 19:50, 4 February 2014
- 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 a55 KB (8,756 words) - 12:10, 11 July 2018
- 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 a52 KB (7,963 words) - 17:54, 3 January 2017
- 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 a53 KB (8,002 words) - 17:53, 3 January 2017
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth46 KB (7,311 words) - 14:10, 6 February 2014
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth46 KB (7,311 words) - 13:51, 16 December 2014
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,436 words) - 16:17, 30 May 2013
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,454 words) - 17:12, 22 October 2012
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,549 words) - 16:36, 20 April 2015
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,549 words) - 16:32, 20 April 2015
- * One should consider examining the solutions from [[gaincal]], using [[plotcal]], in order to assure one's self that the corrections are sensible. Smooth47 KB (7,551 words) - 13:47, 2 June 2015
- plotcal(caltable='cal.ign2', xaxis='time', yaxis='amp', plotcal(caltable='cal.ign2', xaxis='time', yaxis='amp',52 KB (7,692 words) - 16:02, 23 February 2024
- plotcal(caltable='SNR_G55_10s.K0', xaxis='antenna', yaxis='delay') plotcal(caltable='SNR_G55_10s.bPass', xaxis='freq', yaxis='amp',48 KB (7,521 words) - 11:13, 6 April 2016
- [[Image:plotSN2010FZ_plotcal_G0p1_4.0.png|200px|thumb|right|plotcal G0 phase ant 0~15]] [[Image:plotSN2010FZ_plotcal_G0p2_4.0.png|200px|thumb|right|plotcal G0 phase ant 16~26]]125 KB (15,910 words) - 23:10, 4 June 2015
- [[Image:plotSN2010FZ_plotcal_G0p1_4.0.png|200px|thumb|right|plotcal G0 phase ant 0~15]] [[Image:plotSN2010FZ_plotcal_G0p2_4.0.png|200px|thumb|right|plotcal G0 phase ant 16~26]]127 KB (16,188 words) - 17:52, 13 July 2015
- [[Image:plotG192_plotcal_G0p1_4.0.png|200px|thumb|right|plotcal G0 phase ant 0~15]] [[Image:plotG192_plotcal_G0p2_4.0.png|200px|thumb|right|plotcal G0 phase ant 16~26]]155 KB (16,800 words) - 23:15, 4 June 2015