Due to characteristics of the EB039I observations (many passes, multiple
modes, short scans) the normal standard plots weren't really sufficient to
provide an a 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
EB039I cover letter.

The names of the plots files and a brief synopsis of their contents for 
the three different passes are:

GEODETIC PASS:
    eb039i.geod-weight-[1,2].ps          station weights vs. time
    eb039i.geod-auto-[1,2].ps            station autocorrelation vs. freq
    eb039i.geod-cross-[1,2][a,p].ps      baseline amp & phase vs. freq
    eb039i.geod-ampphase-[1,2][a,p].ps   baseline amp & phase vs. time

  The two versions of the time-based plots (weight, ampphase) correspond
to the two ~hour-long geodetic blocks at the beginning and end of the
observations. These plots show all 8 IFs & both polarizations per station
on a single plot, with the below color-coding.

 IF1/RR = red    IF1/LL = blue      IF2/RR = cyan        IF2/LL = green
 IF3/RR = pink   IF3/LL = med.grey  IF4/RR = brown       IF4/LL = purple 
 IF5/RR = teal   IF5/LL = yellow    IF6/RR = steel blue  IF6/LL = lt.grey
 IF7/RR = black  IF7/LL = orange    IF8/RR = lt.green    IF8/LL = lt.purple

Each 2s integration is plotted as a separate point.  Each of the ampphase 
plots shows baselines Ef-* and Ys-*, and is made by vector averaging over
th middle 80% of the band (no fringing applied), and have separate plots
for amp and phase.

  The two versions of the frequency-based plots (auto, cross) show different
scans from each block:  [1] = scan 7 (1127-185), [2] = scan 417 (0555+394).
The baseline plots show all baselines, and plot amp [a] and phase [p]
separately. The color coding for these plots is:  Red=RR, Blue=LL. These
plots are vector averaged over the scan.  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. 

  Cm has signal in only IF5-6 in the geodetic mode (fills IF6, misses the
lower portion of IF5).  As in the recent epochs, we've flagged the CM IFs
without signal prior to plotting to avoid plot clutter ("flagged" == weights
set to -|weights|).  


CONTINUUM PASS -- Done in a single pass, since there weren't different clock
offsets per pol at any station (Ym not in; Vm fringes only in LCP).

    eb039i.cont-weight.ps              station weights vs. time
    eb039i.cont-auto-[1,2].ps          station autocorrelation vs. freq
    eb039i.cont-cross-[1,2][a,p].ps    baseline amp & phase vs. freq
    eb039i.cont-ampphase-[a,p].ps      baseline amp & phase vs. time

The number in [] for the auto and cross plots refers to which of two 
fringe-finder scans is shown: [1]= scan 13 (3C345), [2]= scan 271 (J2038+5119;
chosen prior to Vm leaving the array -- but no Ef fringes here apparently).

  The weight plots show all 8 IFs for the polarization per station on a
single plot, with the IF/pol color-coding as in the geodetic pass.  In the
continuum mode, the Cm signal is in IFs 4-5 (covers IF5, misses the lower
portion of IF4); other Cm IFs have been flagged prior to making the plots.  
Each 1s integration is plotted as a separate point.  The ampphase plots show 
only Ef-* baselines, and plot integration number within this subset of data 
for each baseline along the x-axis rather than time (with time used as the 
abscissa, all the details are hopelessly crowded together into little vertical 
stripes).  One consequence of this is that gaps in specific stations appear 
to get "collected" at the end; thus the final stretch of well-determined phase
for Ef-* baselines corresponds to scan 399 [J2038+5119]), for which On and Vm
have already left the array (Vm planned, On because of winds).  The amp(t) 
plot shows only 2048+4310 & J2029+4636 scans (to avoid brighter fringe-finders 
dominating the y-axis scale) with the same IF/pol color-coding as the weight 
plot.  The phase(t) plot also incorporates 3C345 & J2038+5119 scans, but plots 
only IF4-5 (where the Cm signal is), with IF/pol color-coding:
   IF4/RR = red   IF4/LL = blue    IF5/RR = cyan   IF5/LL = green

  The plots vs frequency are directly comparable to the corresponding plots
in the geodetic block, except for the scans used.  


LINE PASS -- dropped Jb (broken 5/6cm receiver during the experiment)
to keep to only 8 stations, which allowed both polarizations of the line 
pass to run in a single correlator pass (Jb left in continuum pass since
N_sta did not pose correlator-capacity issues).

    eb039i.line-weight.ps             station weights vs. time
    eb039i.line-auto-[1-3].ps         station autocorrelation vs. freq
    eb039i.line-cross-[1,2][a,p].ps   baseline amp & phase vs. freq
    eb039i.line-cross-[3]a.ps         baseline amp vs. freq
    eb039i.line-ampphase-[a,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 per pol.

  There are three scans shown in the auto plots.  The first two use the same
intervals as in the continuum-pass plots.  The autocorrelation plots drop
the upper three frequency points to avoid DC spikes in some stations.  
The third  auto plot shows a W75 scan (scan 126) to demonstrate that the
proper IF was correlated. The cross plots show the same three scans, with
the fringe-finder scans plotting amp and phase (separately), but the W75
scan plotting only amp.  The plots of the maser lines show the sub-set
of frequency points 480-640 in the 1024-point IF, selected to provide more
detail about the spectral shape of the emission.