Due to characteristics of the EB032A observations (short scans, very large data sizes), the normal standard plots weren't really sufficient to provide an adequate review of the entire scope of the experiment. We therefore made a different set of plots manually, as described below. These are in general more exhaustive than the usual standard plots, but also more complicated, since each pass was handled in a slightly different way. For specific data-quality comments that can be inferred from the plots, see the EB032A cover letter. The names of the plots files and a brief synopsis of their contents for the three different passes are: GEODETIC PASS: eb032a.geod-weight-[1,2].ps station weights vs. time eb023a.geod-auto-[1,2].ps station autocorrelation vs. freq eb032a.geod-cross-[1,2][a,p].ps baseline amp & phase vs. freq eb032a.geod-ampphase-[1-4][a,p]*.ps baseline amp & phase vs. time The weight plots show all 8 IFs & both polarizations per station on a single plot, with the below color-coding IF1/LL = red IF1/RR = blue IF2/LL = cyan IF2/RR = green IF3/LL = pink IF3/RR = med.grey IF4/LL = brown IF4/RR = purple IF5/LL = teal IF5/RR = yellow IF6/LL = steel blue IF6/RR = lt.grey IF7/LL = black IF7/RR = orange IF8/LL = lt.green IF8/RR = lt.purple There are two versions of the weight plot: [1] plots with time on the x-axis (leaving sizable gaps between the geodetic "blocks" in the schedule), and [2] plots integration number on the x-axis. Each 2s integration is plotted as a separate point. For the plots vs. frequency, one minute of data is selected from two scans: [1] = scan 11 (2148+065) and [2] = scan 400 (0927+390). The baseline plots show all baselines, and plot amp [a] and phase [p] separately. The color coding for these plots is: Red=LL, Blue=RR. These plots are vector averaged over the included time-range. The y-axes for the real and amp plots self-scale per baseline, not necessarily going down to zero. The phase scale is always +/- 200 degrees. The ampphase plots show each of the 4 geodetic "blocks" separately, as denoted by the first number in [], also with amp [a] and phase [p] separately. Each integration is plotted as a separate point. The plots with no additional suffix after the [a,p] show all IFs/pols for all each baseline not including Da-*, on a single plot, using the color-coding of the weight plots. The plots with an additional "DA" suffix show all baselines to Da-*, but only for IF6 (the only IF which the microwave link from Da fully covers). Each plot is made by vector averaging over the middle 80% of the bands. CONTINUUM PASS: eb032a.cont-weight-[1-3].ps station weights vs. time eb023a.cont-auto-[1-3].ps station autocorrelation vs. freq eb032a.cont-cross-[1-3][a,p].ps baseline amp & phase vs. freq eb032a.cont-ampphase-[1-3][a,p]*.ps baseline amp & phase vs. time The number in [] for the weight and ampphase plots refers to a "block" of schedule: [1] = between the first two geodetic blocks, [2] = between the second and third geodetic blocks, and [3] = between the third and fourth geodetic blocks. The number in [] for the auto and cross plots refers to which of three fringe-finder scan one minute of data was taken: [1] = scan 16 (3C454.3, no Da), [2] = scan 168 (0234+285, no Ef), and [3] = scan 408 (4C39.25, no Hh). **** Note that the order of IFs shown in these plots reflects how * the experiment was scheduled: for the continuum pass IF7-8 are * actually the lowest-frequency pair. In the FITS files, the IFs * are put into increasing-frequency order. The following table shows * the translation. * in MS in FITS * IF1,2 -> IF3,4 * IF3,4 -> IF5,6 (line in here) * IF5,6 -> IF7,8 * IF7,8 -> IF1,2 * This is only an issue for the continuum pass (geodetic pass has * the IFs in increasing frequency order as scheduled; the line pass **** has only 1 IF [containing the maser emission]). The weight plots show all 8 IFs & both polarizations per station on a single plot, with the color coding as in the geodetic-block weight plots (the color-coding refers to the MS IF ordering). Each 0.5s integration is plotted as a separate point (the postscript files are huge, corresponding png files are not). The plots vs frequency are directly comparable to the corresponding plots in the geodetic block, except for the scan used. The ampphase plots show only Ef-* baselines for the IF which the microwave link from Da fully covers [IF4 in MS-ordering, IF6 in FITS-ordering). Target sources are not plotted, and in the amp(t) plots, neither are the fringe-finders. This allows the phase(t) plots to remain uncluttered enough to trace the phase on the reference sources throughout the experiment. Color coding remains Red=LL, Blue=RR. For block [1], there are two additional plots with an "FF" suffix after the [a,p]; these show the two frnge-finder scans 16-17 on all baselnes/IFs/pols, using the color-coding from the weight plots (again, referring to IF-ordering in the MS). LINE PASS: eb032a.line-weight-[1-3].ps station weights vs. time eb023a.line-auto-[1-5].ps station autocorrelation vs. freq eb032a.line-cross-[1,2][a,p].ps baseline amp & phase vs. freq eb032a.line-cross-[3-5]a.ps baseline amp vs. freq eb032a.line-ampphase-[1-3]p.ps baseline phase vs. time The weight and ampphase plots are directly comparable to those from the continuum pass, except here there is only one IF (hence Red=LL, Blue=RR). No amp(t) plots are shown; the only difference between these phs(t) plots and those from the continuum pass is the number of frequency points in the correlation. There are five scans shown in the auto plots. The first two use 1 minute of data from a fringe-finder scan: [1] = scan 16 (3C454.3, no Da) and [2] = scan 408 (4C39.5, no Hh). The last three show a maser-source scan from each "block" to demonstrate that the proper IF was correlated: [3] = scan 33 (L1206), [4] = scan 209 (S252), and [5] = scan 431 (L1287). The cross plots show the same five scans, with the fringe-finder scans plotting amp and phase (separately), but the maser-source scans plotting only amp.