! Started logfile: /vlbi/vcs9/uvm//J0938-1430_C_a_dfm.log on Tue Dec 26 22:07:15 2017 float field_size field_size = 1024 float field_cell field_cell = 0.3000 float taper_size taper_size = 40.0 float freq freq = 4.12800 obs /vlbi/vcs9/uvm//J0938-1430_C_a_uvm.fits ! Reading UV FITS file: /vlbi/vcs9/uvm//J0938-1430_C_a_uvm.fits ! AN table 1: 129 integrations on 45 of 45 possible baselines. ! AN table 2: 129 integrations on 36 of 36 possible baselines. ! Apparent sampling: 1 visibilities/baseline/integration-bin. ! Found source: J0938-1430 ! ! There are 8 IFs, and a total of 8 channels: ! ! IF Channel Frequency Freq offset Number of Overall IF ! origin at origin per channel channels bandwidth ! ------------------------------------------------------------- (Hz) ! 01 1 4.128e+09 3.2e+07 1 3.2e+07 ! 02 2 4.16e+09 3.2e+07 1 3.2e+07 ! 03 3 4.192e+09 3.2e+07 1 3.2e+07 ! 04 4 4.224e+09 3.2e+07 1 3.2e+07 ! 05 5 4.416e+09 3.2e+07 1 3.2e+07 ! 06 6 4.512e+09 3.2e+07 1 3.2e+07 ! 07 7 4.544e+09 3.2e+07 1 3.2e+07 ! 08 8 4.576e+09 3.2e+07 1 3.2e+07 ! ! Polarization(s): RR ! ! Read 94 lines of history. ! ! Reading 83592 visibilities. select rr, 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16 ! Restricting channel ranges to the available 8 channels. ! Selecting polarization: RR, channels: 1..8 ! Reading IF 1 channels: 1..1 ! Reading IF 2 channels: 2..2 ! Reading IF 3 channels: 3..3 ! Reading IF 4 channels: 4..4 ! Reading IF 5 channels: 5..5 ! Reading IF 6 channels: 6..6 ! Reading IF 7 channels: 7..7 ! Reading IF 8 channels: 8..8 print "field_size =", field_size ! field_size = 1024 print "field_cell =", field_cell ! field_cell = 0.3 print "taper_size =", taper_size ! taper_size = 40 ![@/opt64/bin/pima_mupet_02.dfm J0938-1430_C] integer clean_niter clean_niter = 100 float clean_gain clean_gain = 0.04 float dynam dynam = 6.0 float amp_soltime1 amp_soltime1 = 60 float amp_soltime2 amp_soltime2 = 5 float phase_soltime1 phase_soltime1=10 float phase_soltime2 phase_soltime2=0.5 float phase_soltime phase_soltime=phase_soltime1 float ampcor_selflim ampcor_selflim=1.20 float thresh thresh = 0.1 float win_mult win_mult = 1.8 float time_av time_av = 30 float old_peak float new_peak float flux_cutoff print "===============================================================" ! =============================================================== ! print "=== Difmap script: pima_mupet_02.dvm version of 2017.12.26 === " ! === Difmap script: pima_mupet_02.dvm version of 2017.12.26 === ! mapsize field_size, field_cell ! Map grid = 1024x1024 pixels with 0.300x0.300 milli-arcsec cellsize. phase_soltime=phase_soltime1 print "uvstat(rms)=",uvstat(rms),"Jy" ! uvstat(rms)= 0.0328042 Jy startmod ! Applying default point source starting model. ! Performing phase self-cal ! Adding 1 model components to the UV plane model. ! The established model now contains 1 components and 1 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=1.000364Jy sigma=25.929717 ! Fit after self-cal, rms=0.987836Jy sigma=25.608223 ! clrmod: Cleared the established, tentative and continuum models. ! Redundant starting model cleared. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. peakwin win_mult ! Inverting map and beam ! Estimated beam: bmin=1.366 mas, bmaj=3.371 mas, bpa=-11.44 degrees ! Estimated noise=0.289334 mJy/beam. ! Added new window around map position (0, 0). flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal false,false,phase_soltime new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=100 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 0.010742 Jy ! Component: 100 - total flux cleaned = 0.0124003 Jy ! Total flux subtracted in 100 components = 0.0124003 Jy ! Clean residual min=-0.001105 max=0.000962 Jy/beam ! Clean residual mean=0.000001 rms=0.000227 Jy/beam ! Combined flux in latest and established models = 0.0124003 Jy ! Performing phase self-cal over 10 minute time intervals ! Adding 11 model components to the UV plane model. ! The established model now contains 11 components and 0.0124003 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030274Jy sigma=0.715153 ! Fit after self-cal, rms=0.030267Jy sigma=0.714953 ! Inverting map print "============== Finished uniform weighting CLEAN ==============" ! ============== Finished uniform weighting CLEAN ============== ! uvw 0,-2 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -2. ! Radial weighting is not currently selected. win_mult = win_mult * 1.6 clean_niter = clean_niter * 2 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.085 mas, bmaj=5.023 mas, bpa=-12.24 degrees ! Estimated noise=0.0943508 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal false,false,phase_soltime new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 0.000386912 Jy ! Component: 100 - total flux cleaned = 0.000487891 Jy ! Component: 150 - total flux cleaned = 0.000497434 Jy ! Component: 200 - total flux cleaned = 0.000505706 Jy ! Total flux subtracted in 200 components = 0.000505706 Jy ! Clean residual min=-0.000592 max=0.000645 Jy/beam ! Clean residual mean=-0.000003 rms=0.000147 Jy/beam ! Combined flux in latest and established models = 0.012906 Jy ! Performing phase self-cal over 10 minute time intervals ! Adding 10 model components to the UV plane model. ! The established model now contains 20 components and 0.012906 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030261Jy sigma=0.714848 ! Fit after self-cal, rms=0.030261Jy sigma=0.714836 ! Inverting map print "============== Finished natural weighting CLEAN ==============" ! ============== Finished natural weighting CLEAN ============== ! gscale ! Performing overall amplitude self-cal ! ! Correcting IF 1. ! Amplitude normalization factor in sub-array 1: 1.09162 ! Telescope amplitude corrections in sub-array 1: ! BR 0.99 FD 0.74 HN 1.04 KP 1.06 ! LA 0.80 MK 0.83 NL 0.96 OV 0.84 ! PT 1.00 SC 0.91 ! ! Amplitude normalization factor in sub-array 2: 1.13108 ! Telescope amplitude corrections in sub-array 2: ! BR 0.90 FD 0.88 HN 0.92 KP 0.98 ! LA 0.85 MK 0.69 NL 0.89 OV 0.87 ! PT 0.97 ! ! ! Correcting IF 2. ! Amplitude normalization factor in sub-array 1: 1.04381 ! Telescope amplitude corrections in sub-array 1: ! BR 0.93 FD 0.80 HN 1.01 KP 1.13 ! LA 0.92 MK 0.93 NL 1.00 OV 0.81 ! PT 1.11 SC 0.93 ! ! Amplitude normalization factor in sub-array 2: 1.07304 ! Telescope amplitude corrections in sub-array 2: ! BR 0.84 FD 0.94 HN 0.94 KP 1.13 ! LA 0.89 MK 0.80 NL 0.93 OV 0.93 ! PT 0.98 ! ! ! Correcting IF 3. ! Amplitude normalization factor in sub-array 1: 1.01039 ! Telescope amplitude corrections in sub-array 1: ! BR 0.94 FD 0.93 HN 0.98 KP 1.06 ! LA 1.02 MK 1.03 NL 0.81 OV 0.91 ! PT 1.15 SC 1.08 ! ! Amplitude normalization factor in sub-array 2: 1.04978 ! Telescope amplitude corrections in sub-array 2: ! BR 0.83 FD 0.91 HN 0.92 KP 1.01 ! LA 1.01 MK 0.98 NL 0.91 OV 0.99 ! PT 1.02 ! ! ! Correcting IF 4. ! Amplitude normalization factor in sub-array 1: 1.02358 ! Telescope amplitude corrections in sub-array 1: ! BR 1.02 FD 0.79 HN 1.02 KP 1.25 ! LA 0.90 MK 1.00 NL 0.95 OV 1.03 ! PT 0.90 SC 0.90 ! ! Amplitude normalization factor in sub-array 2: 1.02285 ! Telescope amplitude corrections in sub-array 2: ! BR 1.00 FD 0.87 HN 0.94 KP 1.11 ! LA 0.88 MK 0.90 NL 1.22 OV 0.89 ! PT 0.99 ! ! ! Correcting IF 5. ! Amplitude normalization factor in sub-array 1: 0.980696 ! Telescope amplitude corrections in sub-array 1: ! BR 0.77 FD 0.94 HN 1.07 KP 1.06 ! LA 0.86 MK 1.06 NL 1.08 OV 1.10 ! PT 1.20 SC 1.05 ! ! Amplitude normalization factor in sub-array 2: 0.982633 ! Telescope amplitude corrections in sub-array 2: ! BR 0.75 FD 1.26 HN 1.11 KP 0.97 ! LA 0.90 MK 1.04 NL 1.00 OV 0.98 ! PT 1.15 ! ! ! Correcting IF 6. ! Amplitude normalization factor in sub-array 1: 0.947454 ! Telescope amplitude corrections in sub-array 1: ! BR 1.00 FD 1.04 HN 1.00 KP 1.32 ! LA 0.87 MK 1.03 NL 1.13 OV 1.12 ! PT 0.97 SC 1.08 ! ! Amplitude normalization factor in sub-array 2: 0.909088 ! Telescope amplitude corrections in sub-array 2: ! BR 1.08 FD 1.21 HN 1.06 KP 1.24 ! LA 1.03 MK 0.93 NL 1.04 OV 1.22 ! PT 1.09 ! ! ! Correcting IF 7. ! Amplitude normalization factor in sub-array 1: 0.871653 ! Telescope amplitude corrections in sub-array 1: ! BR 1.05 FD 1.42 HN 1.12 KP 1.30 ! LA 1.28 MK 1.05 NL 1.01 OV 1.00 ! PT 1.18 SC 1.06 ! ! Amplitude normalization factor in sub-array 2: 0.964882 ! Telescope amplitude corrections in sub-array 2: ! BR 0.93 FD 1.07 HN 1.22 KP 0.99 ! LA 0.97 MK 1.14 NL 1.00 OV 0.95 ! PT 1.06 ! ! ! Correcting IF 8. ! Amplitude normalization factor in sub-array 1: 0.901656 ! Telescope amplitude corrections in sub-array 1: ! BR 0.94 FD 1.16 HN 1.12 KP 1.10 ! LA 1.12 MK 1.08 NL 1.03 OV 1.01 ! PT 1.35 SC 1.17 ! ! Amplitude normalization factor in sub-array 2: 0.90861 ! Telescope amplitude corrections in sub-array 2: ! BR 0.89 FD 1.33 HN 1.07 KP 1.20 ! LA 0.86 MK 0.96 NL 1.32 OV 1.20 ! PT 1.07 ! ! ! Fit before self-cal, rms=0.030261Jy sigma=0.714836 ! Fit after self-cal, rms=0.030083Jy sigma=0.713250 selfcal false, false, phase_soltime ! Performing phase self-cal over 10 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030083Jy sigma=0.713250 ! Fit after self-cal, rms=0.030083Jy sigma=0.713239 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.087 mas, bmaj=4.941 mas, bpa=-12.79 degrees ! Estimated noise=0.0908555 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal false,false,phase_soltime new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = -0.000303378 Jy ! Component: 100 - total flux cleaned = -0.00034921 Jy ! Component: 150 - total flux cleaned = -0.000351559 Jy ! Component: 200 - total flux cleaned = -0.00035353 Jy ! Total flux subtracted in 200 components = -0.00035353 Jy ! Clean residual min=-0.000572 max=0.000462 Jy/beam ! Clean residual mean=0.000001 rms=0.000116 Jy/beam ! Combined flux in latest and established models = 0.0125525 Jy ! Performing phase self-cal over 10 minute time intervals ! Adding 8 model components to the UV plane model. ! The established model now contains 27 components and 0.0125525 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030083Jy sigma=0.713173 ! Fit after self-cal, rms=0.030083Jy sigma=0.713167 ! Inverting map print "============== Finished amplitude gscale SELF-CAL ==============" ! ============== Finished amplitude gscale SELF-CAL ============== ! phase_soltime=phase_soltime2 selfcal false, false, phase_soltime ! Performing phase self-cal over 0.5 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030083Jy sigma=0.713167 ! Fit after self-cal, rms=0.030027Jy sigma=0.711359 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal false,false,phase_soltime new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 0.000137742 Jy ! Component: 100 - total flux cleaned = 0.000143959 Jy ! Component: 150 - total flux cleaned = 0.000145449 Jy ! Component: 200 - total flux cleaned = 0.000144143 Jy ! Total flux subtracted in 200 components = 0.000144143 Jy ! Clean residual min=-0.000565 max=0.000467 Jy/beam ! Clean residual mean=0.000001 rms=0.000114 Jy/beam ! Combined flux in latest and established models = 0.0126966 Jy ! Performing phase self-cal over 0.5 minute time intervals ! Adding 20 model components to the UV plane model. ! The established model now contains 46 components and 0.0126966 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030025Jy sigma=0.711341 ! Fit after self-cal, rms=0.030020Jy sigma=0.711187 ! Inverting map print "=== Finished natural weighting clean with shorter phase_soltime " ! === Finished natural weighting clean with shorter phase_soltime ! dynam = dynam - 0.25 restore ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.087 x 4.941 at -12.79 degrees (North through East) ! Clean map min=-0.00054633 max=0.012224 Jy/beam if(peak(flux) > thresh) selfcal true, true, amp_soltime1 selfcal false, false, phase_soltime flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal false,false,phase_soltime new_peak = peak(flux) until(new_peak<=flux_cutoff) print "============== Finished amplitude self-cal ==============" end if print "============== Clearing model and starting over ==========" ! ============== Clearing model and starting over ========== clrmod true,true,true ! clrmod: Cleared the established, tentative and continuum models. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. clean clean_niter, clean_gain ! Inverting map and beam ! Estimated beam: bmin=1.368 mas, bmaj=3.351 mas, bpa=-11.97 degrees ! Estimated noise=0.281502 mJy/beam. ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 0.0106123 Jy ! Component: 100 - total flux cleaned = 0.0121885 Jy ! Component: 150 - total flux cleaned = 0.012541 Jy ! Component: 200 - total flux cleaned = 0.0125831 Jy ! Total flux subtracted in 200 components = 0.0125831 Jy ! Clean residual min=-0.000805 max=0.000845 Jy/beam ! Clean residual mean=0.000002 rms=0.000207 Jy/beam ! Combined flux in latest and established models = 0.0125831 Jy uvw 0,-2 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -2. ! Radial weighting is not currently selected. flux_cutoff = imstat(rms) * dynam ! Adding 20 model components to the UV plane model. ! The established model now contains 20 components and 0.0125831 Jy ! Inverting map and beam ! Estimated beam: bmin=2.087 mas, bmaj=4.941 mas, bpa=-12.79 degrees ! Estimated noise=0.0908555 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam keep new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 4.3575e-05 Jy ! Component: 100 - total flux cleaned = 6.02263e-05 Jy ! Component: 150 - total flux cleaned = 7.77587e-05 Jy ! Component: 200 - total flux cleaned = 9.10273e-05 Jy ! Total flux subtracted in 200 components = 9.10273e-05 Jy ! Clean residual min=-0.000567 max=0.000473 Jy/beam ! Clean residual mean=0.000001 rms=0.000114 Jy/beam ! Combined flux in latest and established models = 0.0126742 Jy ! Adding 9 model components to the UV plane model. ! The established model now contains 29 components and 0.0126742 Jy ! Inverting map clean ! clean: niter=200 gain=0.04 cutoff=0 ! Component: 050 - total flux cleaned = 7.74534e-06 Jy ! Component: 100 - total flux cleaned = 9.83081e-06 Jy ! Component: 150 - total flux cleaned = 1.33537e-05 Jy ! Component: 200 - total flux cleaned = 1.63838e-05 Jy ! Total flux subtracted in 200 components = 1.63838e-05 Jy ! Clean residual min=-0.000569 max=0.000470 Jy/beam ! Clean residual mean=0.000001 rms=0.000114 Jy/beam ! Combined flux in latest and established models = 0.0126905 Jy selfcal false, false, phase_soltime ! Performing phase self-cal over 0.5 minute time intervals ! Adding 13 model components to the UV plane model. ! The established model now contains 37 components and 0.0126905 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Correcting IF 5. ! ! Correcting IF 6. ! ! Correcting IF 7. ! ! Correcting IF 8. ! ! Fit before self-cal, rms=0.030020Jy sigma=0.711195 ! Fit after self-cal, rms=0.030020Jy sigma=0.711177 wmodel J0938-1430_C_map.mod ! Writing 37 model components to file: J0938-1430_C_map.mod wobs J0938-1430_C_uvs.fits ! Writing UV FITS file: J0938-1430_C_uvs.fits wwins J0938-1430_C_map.win ! wwins: Wrote 1 windows to J0938-1430_C_map.win x = (field_size-8) * field_cell / 4 addwin -x,x,-x,x clean (field_size*4),0.01 ! Inverting map ! clean: niter=4096 gain=0.01 cutoff=0 ! Component: 050 - total flux cleaned = -0.000219693 Jy ! Component: 100 - total flux cleaned = -0.000286735 Jy ! Component: 150 - total flux cleaned = -0.000279208 Jy ! Component: 200 - total flux cleaned = -0.000251556 Jy ! Component: 250 - total flux cleaned = -0.000218761 Jy ! Component: 300 - total flux cleaned = -0.000180935 Jy ! Component: 350 - total flux cleaned = -0.00015062 Jy ! Component: 400 - total flux cleaned = -0.000121414 Jy ! Component: 450 - total flux cleaned = -0.000104458 Jy ! Component: 500 - total flux cleaned = -7.15241e-05 Jy ! Component: 550 - total flux cleaned = -4.49123e-05 Jy ! Component: 600 - total flux cleaned = -3.97923e-05 Jy ! Component: 650 - total flux cleaned = -2.46953e-05 Jy ! Component: 700 - total flux cleaned = -1.48334e-05 Jy ! Component: 750 - total flux cleaned = 4.43936e-06 Jy ! Component: 800 - total flux cleaned = 9.08761e-06 Jy ! Component: 850 - total flux cleaned = 2.28629e-05 Jy ! Component: 900 - total flux cleaned = 3.17985e-05 Jy ! Component: 950 - total flux cleaned = 4.06191e-05 Jy ! Component: 1000 - total flux cleaned = 4.49776e-05 Jy ! Component: 1050 - total flux cleaned = 4.91511e-05 Jy ! Component: 1100 - total flux cleaned = 4.91346e-05 Jy ! Component: 1150 - total flux cleaned = 5.31504e-05 Jy ! Component: 1200 - total flux cleaned = 5.72343e-05 Jy ! Component: 1250 - total flux cleaned = 8.06942e-05 Jy ! Component: 1300 - total flux cleaned = 8.83014e-05 Jy ! Component: 1350 - total flux cleaned = 0.000103374 Jy ! Component: 1400 - total flux cleaned = 0.000121852 Jy ! Component: 1450 - total flux cleaned = 0.000125456 Jy ! Component: 1500 - total flux cleaned = 0.000146883 Jy ! Component: 1550 - total flux cleaned = 0.000143372 Jy ! Component: 1600 - total flux cleaned = 0.000178029 Jy ! Component: 1650 - total flux cleaned = 0.000184884 Jy ! Component: 1700 - total flux cleaned = 0.000194973 Jy ! Component: 1750 - total flux cleaned = 0.000191681 Jy ! Component: 1800 - total flux cleaned = 0.000211316 Jy ! Component: 1850 - total flux cleaned = 0.000227377 Jy ! Component: 1900 - total flux cleaned = 0.000236848 Jy ! Component: 1950 - total flux cleaned = 0.000258706 Jy ! Component: 2000 - total flux cleaned = 0.000274142 Jy ! Component: 2050 - total flux cleaned = 0.000283379 Jy ! Component: 2100 - total flux cleaned = 0.000316693 Jy ! Component: 2150 - total flux cleaned = 0.000340599 Jy ! Component: 2200 - total flux cleaned = 0.000370139 Jy ! Component: 2250 - total flux cleaned = 0.000387663 Jy ! Component: 2300 - total flux cleaned = 0.000422363 Jy ! Component: 2350 - total flux cleaned = 0.000445249 Jy ! Component: 2400 - total flux cleaned = 0.000467882 Jy ! Component: 2450 - total flux cleaned = 0.000490321 Jy ! Component: 2500 - total flux cleaned = 0.000515283 Jy ! Component: 2550 - total flux cleaned = 0.000534524 Jy ! Component: 2600 - total flux cleaned = 0.000553572 Jy ! Component: 2650 - total flux cleaned = 0.000572426 Jy ! Component: 2700 - total flux cleaned = 0.000596498 Jy ! Component: 2750 - total flux cleaned = 0.00060977 Jy ! Component: 2800 - total flux cleaned = 0.000628128 Jy ! Component: 2850 - total flux cleaned = 0.000648913 Jy ! Component: 2900 - total flux cleaned = 0.000666954 Jy ! Component: 2950 - total flux cleaned = 0.00068738 Jy ! Component: 3000 - total flux cleaned = 0.000700045 Jy ! Component: 3050 - total flux cleaned = 0.00071513 Jy ! Component: 3100 - total flux cleaned = 0.00073011 Jy ! Component: 3150 - total flux cleaned = 0.000752439 Jy ! Component: 3200 - total flux cleaned = 0.000764742 Jy ! Component: 3250 - total flux cleaned = 0.000772085 Jy ! Component: 3300 - total flux cleaned = 0.000784225 Jy ! Component: 3350 - total flux cleaned = 0.000798713 Jy ! Component: 3400 - total flux cleaned = 0.000805906 Jy ! Component: 3450 - total flux cleaned = 0.000820188 Jy ! Component: 3500 - total flux cleaned = 0.000834365 Jy ! Component: 3550 - total flux cleaned = 0.000843762 Jy ! Component: 3600 - total flux cleaned = 0.000853101 Jy ! Component: 3650 - total flux cleaned = 0.000871642 Jy ! Component: 3700 - total flux cleaned = 0.000876237 Jy ! Component: 3750 - total flux cleaned = 0.000887671 Jy ! Component: 3800 - total flux cleaned = 0.000903578 Jy ! Component: 3850 - total flux cleaned = 0.000914902 Jy ! Component: 3900 - total flux cleaned = 0.000926132 Jy ! Component: 3950 - total flux cleaned = 0.000937312 Jy ! Component: 4000 - total flux cleaned = 0.000950657 Jy ! Component: 4050 - total flux cleaned = 0.000961696 Jy ! Total flux subtracted in 4096 components = 0.000968307 Jy ! Clean residual min=-0.000115 max=0.000134 Jy/beam ! Clean residual mean=-0.000001 rms=0.000040 Jy/beam ! Combined flux in latest and established models = 0.0136588 Jy keep ! Adding 282 model components to the UV plane model. ! The established model now contains 319 components and 0.0136588 Jy ![Exited script file: /opt64/bin/pima_mupet_02.dfm] wmap /vlbi/vcs9/uvm//J0938-1430_C_a_map.fits ! Inverting map ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.087 x 4.941 at -12.79 degrees (North through East) ! Clean map min=-0.00024023 max=0.012303 Jy/beam ! Writing clean map to FITS file: /vlbi/vcs9/uvm//J0938-1430_C_a_map.fits wmodel /vlbi/vcs9/uvm//J0938-1430_C_a_map.mod ! Writing 319 model components to file: /vlbi/vcs9/uvm//J0938-1430_C_a_map.mod wobs /vlbi/vcs9/uvm//J0938-1430_C_a_uvs.fits ! Writing UV FITS file: /vlbi/vcs9/uvm//J0938-1430_C_a_uvs.fits wwins /vlbi/vcs9/uvm//J0938-1430_C_a_map.win ! wwins: Wrote 2 windows to /vlbi/vcs9/uvm//J0938-1430_C_a_map.win float peak_flux peak_flux = peak(flux,max) print "The peak flux is", peak_flux ! The peak flux is 0.0123031 invert ! Inverting map float image_rms image_rms = imstat(rms) print "The final image rms is",image_rms ! The final image rms is 3.71265e-05 loglevs 100*3*image_rms/peak_flux ! The new contour levels are: ! -0.905293 0.905293 1.81059 3.62117 7.24234 14.4847 28.9694 57.9387 print "clev= ", int(3*image_rms*10000)/10000 ! clev= 0.0001 print "peak= ", int(1000*peak_flux)/1000 ! peak= 0.012 print "dyn_range= ", int(1000*peak_flux/image_rms)/1000 ! dyn_range= 331.384 quit ! Quitting program ! Log file /vlbi/vcs9/uvm//J0938-1430_C_a_dfm.log closed on Tue Dec 26 22:07:20 2017