links:
processing
plotting the results
summary

Intro

    Daily maps of the sun are made with the 12meter telescope at xband.

• The maps are 2deg x 2deg center on the sun
• Each strip drives in RA and then steps in dec by 1/2 a beam(5amin)
• At the start of each map a 10 second calon, 10sec cal off is done at -1deg RA(greatcircle), -1deg dec
• At the end of each map a 10 second calon, 10 sec cal off is data at +1deg RA(great circle), +1deg dec.
• a map takes about 30 minutes.
  
• When converting the data from spectrometer counts to degK the average of the 2 cal scale factors are used.
  
• The electronic gain of the telescope is know to vary with temperature (more info).
• A test was done to see how much the calDeflection changed between the first calon,off and the last calOn,off.
  
• This would give an idea for the conversion error from spectrometer counts to degK caused by electronic gain variation.
• We could use this to decide if we need to take a cal on,off on each strip rather than only at the start/end of the map.
  

---

Processing:

• All sun maps taken 19APR22 thru 02aug22 where used for the test.
• there were 211 complete maps (with both cals)
• The two calon,offs were input for each map
  
• The ratio of the calDeflection for the Lastcal/Firstcal was computed
• this was done for polA, B  in the 7 frequency bands.
• Changes in the ratio would occur if:
• the electronic gain of the system changed during the 30min of the map
•  the temperature of the cal diode is stabilized with a peltier cooler so its output power should not vary.
• There was rfi that was not removed completely from the total power computation.
• If rfi was a problem, it should not show up in all 7 freq bands (unless the system saturated)

---

Plotting the data:

    The  plots show the variation of the caldeflection for the 211 sunmaps (.ps) (.pdf):

•  Page 1 Ratio of CalDeflections vs date  (all freq bands over plotted)
  
• Top frame: polA
• bottom frame:polB
• each color is a different frequency band
• the pink band(8789)and dark red band(8931) have large excursions.
• During these excursions the other bands are relatively stable. t
• this says that the jumps are rfi related and not from the electronic gain variation.
  
• + have been plotted at each measurement
• gaps in the data end up looking like straight lines.
• Vertical axis  (calDeflectionEndOfMap/calDeflectionStartOfMap)
• The vertical scale in clipped to .8 to 1.2 . some points go offscale.
  
• horizontal axis:  date at yymmdd
• Page 2-3: Ratio of calDeflection vs date with each freq in a separate frame.
• Black is polA
• red is polB
• splitting it out makes it a little easier to see the variations.
• Page 4: Histogram of the Ratio.
• the data bins are .01 in length. The max,min values were set to .9 to 1.1 (+/- 10%
  
• each color is a different frequency band.
  
• top frame: polA
• bottom frame: polB
• the center of the polA and polb histograms are less than 1.
• this means that the cal deflection at the end is smaller than the cal deflection at the start
• the maps are normally taken around 10am when the temperature is still increasing
• As the temperature increases, the electronic gain decreases.. so this shift is to be expected.
• The center of polB is a little less than the center of  polA
• the gain vs temperature plots (see more info above) shows that the gain of polB changes faster than polA with temperature.
• so we would expect polB to shift a little more.
• Page 5: ratio of cal deflections vs elevation
• top polA
• bottom polB
• there is not obvious elevation dependence
• you wouldn't expect there to be it the change is from the electronic gain.
  

---

Summary

• 211 sun maps were examined covering 19apr22 thru 02aug22
• the calDeflection for the first and last cal was computed and then the ratio CalDefltLast/calDeflFirst was formed.
• changes in the ratio of the cal deflections will show the electronic gain variations during the 30 min sun map.
• looking at histogram of the calratio:
• the center of the histogram are offset below 1.
• maps typically made in the morning when the temperature is increasing.
• the electronic gain decreased with temperature.
• PolA center is around .98
• polB center is around .97 (polB electronic gain changes faster than polA with temp)
• the histogram widths are about .04  or a 4% variation
• There is an electronic gain variation of about 2-3%
• We use the average of the two cals when converting to kelvins
• if the variation is linear then that reduces the error by 1/2.
• If a 1% error in the cal caused by electronic gain variation is acceptable, then you don't need cals every strip.
  
• Note: this does not measure how accurate the cals values are, only how much they vary.
  

---

processing:x101/mapsun/test/suncals_inp.pro, plotratio.pro