Determine spectral slope of science source

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(Determine Spectral Index of Phase Calibrator)
(Determine Spectral Index of Phase Calibrator)
Line 100: Line 100:
  
 
set onsource=IRAS4
 
set onsource=IRAS4
 +
 
set flux=URANUS
 
set flux=URANUS
 +
 
set pass1=3C84
 
set pass1=3C84
 +
 
set pass2=3C84
 
set pass2=3C84
 +
 
set cal=3C84
 
set cal=3C84
 +
 
set vis=uvdata
 
set vis=uvdata
  
 
set bands = ( 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 )
 
set bands = ( 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 )
 +
 
set uranustb =  ( 124.89169 125.05010 125.20929 125.36919 125.52988 125.69135 125.85355 126.01654 121.49650 121.35417 121.21234 121.07124 120.93065 120.79076 120.65140 120.51263 )
 
set uranustb =  ( 124.89169 125.05010 125.20929 125.36919 125.52988 125.69135 125.85355 126.01654 121.49650 121.35417 121.21234 121.07124 120.93065 120.79076 120.65140 120.51263 )
  

Revision as of 15:01, 7 December 2011

These notes are from a project to determine the spectral slope of DG Tau, which is a protostellar object.

We assume your data has been properly flagged.

There are 16 continuum windows (500 MHz BW) in this example.

Determine Spectral Index of Passband Calibrator

#! /bin/csh -f
#Set variable names
set flux=URANUS
set pass=3C84
set vis=uvdata
#Correlator bands
set bands = ( 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 )
#Brightness temperature of URANUS at our observing frequencies for flux calibration
#Derived using function provided by A. Isella. He derived it from WMAP data (and references therein).
   #Tb=b1 + b2*log(x) + b3*log(x)^2 + b4*log(x)^3
   #b1=154.813 b2=106.598 b3=-91.0474 b4=15.0796

set uranustb = ( 125.02683 125.20088 125.37588 125.55175 125.72856 125.90630 126.08495 126.26458 121.98721 121.82910 121.67174 121.51508 121.35952 121.20437 121.04997 120.89625 )

#C8 at center of this D-array

set refant=8

#Prepare data

rm -Rf $vis uvcat vis=c0800.4D_102HH211.2.miriad out=$vis select="-auto" options=nopass,nocal,nopol

#Flag visibility data

foreach band ( $bands )

 #Select individual window
 /bin/rm -Rf $vis.$band
 uvcat vis=$vis out=$vis.$band select="'win($band)'" options=nocal,nopol,nopass
 #Run mfcal on this window on very short timescale to minimize decorrelation
 mfcal vis=$vis.$band select="source("$pass")" interval=0.1,10000. refant=$refant edge=2 line=chan,39,1,1,1
 #Check mfcal solution
 #gpplt vis=$vis.$band yaxis=amp device=1/xs nxy=4,4  
 #set text = "Press ENTER .."
 #if ($#argv > 0) set text = "$* >>" 
 #printf "\n$text" 
 #set junk = ($<)
 #Apply mfcal solution to correct for variation across the bandpass
 /bin/rm -Rf $vis.$band.pb 
 uvcat vis=$vis.$band out=$vis.$band.pb options=nocal,nopol

 #STARTING STEPS FOR BOOTFLUX 
   #BANDPASS SOURCE PHASE CALIBRATION
   #Run selfcal on bandpass source do derive gain solutions for the bandpass source
   #Interval can be short since just applying it to the same source (?)
   mselfcal vis=$vis.$band.pb select="source("$pass")" interval=1.01 options=apriori,noscale,phase refant=$refant line=chan,1,1,39,39
   
   #Check selfcal solution for bandpass source
   
   #Apply selfcal phase solution from the bandpass calibrator to the bandpass calibrator
   /bin/rm -Rf $vis.$band.$pass.scp
   uvcat vis=$vis.$band.pb out=$vis.$band.$pass.scp select="source("$pass")" options=nopass,nopol
   
   #FLUX SOURCE PHASE CALIBRATION
   #Run selfcal on flux source to derive gain solutions for the flux source
   #Interval can be short since just applying it to the same source (?)
   mselfcal vis=$vis.$band.pb select="source("$flux")" interval=1.01 options=apriori,noscale,phase refant=$refant line=chan,1,1,39,39

   #Check selfcal solution for flux source
   #Apply selfcal phase solution from the flux calibrator to the flux calibrator
   /bin/rm -Rf $vis.$band.$flux.scp
   uvcat vis=$vis.$band.pb out=$vis.$band.$flux.scp select="source("$flux")" options=nopass,nopol
   #UVCAT bandpass and phase corrected visiblity data for the BANDPASS and FLUX calibrator together
   #This is the visibility file to use in bootflux
   /bin/rm -Rf $vis.$band.btrdy
   uvcat vis=$vis.$band.$pass.scp,$vis.$band.$flux.scp out=$vis.$band.btrdy options=nopass,nopol,nocal
   #BOOTFLUX STEP
   #print out Tb of URANUS at this window
   echo $uranustb[$band]
   #run bootflux and dump output into log file
   bootflux vis=$vis.$band.btrdy select="source("$pass,$flux")" line=chan,1,1,39,39 taver=5.01 primary=$flux,$uranustb[$band] badres=70 log=bootfluxJ.$pass.log2
   #grep that log file and extract the bootstrapped Average Flux and Flux Error of 3C84 at this window
   grep Average bootfluxJ.$pass.log2 | grep Flux | cut -c 17-31 > script1_bootflux.$pass.$band
   #print the result to the screen
   set tempfluxpass = `awk 'NR==1' script1_bootflux.$pass.$band`
   echo $tempfluxpass
   
   #clean up
   /bin/rm -Rf $vis.$band $vis.$band.pb $vis.$band.$pass.scp $vis.$band.$flux.scp $vis.$band.btrdy bootflux.$pass.log2

end


Determine Spectral Index of Phase Calibrator

set onsource=IRAS4

set flux=URANUS

set pass1=3C84

set pass2=3C84

set cal=3C84

set vis=uvdata

set bands = ( 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 )

set uranustb = ( 124.89169 125.05010 125.20929 125.36919 125.52988 125.69135 125.85355 126.01654 121.49650 121.35417 121.21234 121.07124 120.93065 120.79076 120.65140 120.51263 )

set refant=8

mfcal vis=$vis select="source("$pass1")" interval=0.1,10000. refant=$refant edge=2 line=chan,624,1,1,1 flux=1.868,103.0,-0.695 /bin/rm -Rf $vis.fullpb uvcat vis=$vis out=$vis.fullpb options=nopol,nocal

foreach band ($bands)

 #Select individual window
 /bin/rm -Rf $vis.$band
 uvcat vis=$vis.fullpb out=$vis.$band select="'win($band)'" options=nocal,nopol,nopass
 mselfcal vis=$vis.$band select="source("$cal")" interval=1.01 options=noscale,phase,apriori refant=$refant line=chan,1,1,39,39
 #smagpplt vis=$vis.fullpb yaxis=phase device=3/xs nxy=4,4
 /bin/rm -Rf $vis.$cal.$band.scp
 uvcat vis=$vis.$band out=$vis.$cal.$band.scp select="source("$cal")" options=nopass,nopol 
 mselfcal vis=$vis.$band select="source("$flux")" interval=1.01 options=noscale,phase,apriori refant=$refant line=chan,1,1,39,39
 #smagpplt vis=$vis.fullpb yaxis=phase device=3/xs nxy=4,4
 /bin/rm -Rf $vis.$flux.$band.scp
 uvcat vis=$vis.$band out=$vis.$flux.$band.scp select="source("$flux")" options=nopass,nopol 
 /bin/rm -Rf $vis.$band.btrdy
 uvcat vis=$vis.$cal.$band.scp,$vis.$flux.$band.scp out=$vis.$band.btrdy options=nopass,nopol,nocal
 bootflux vis=$vis.$band.btrdy select="source("$cal,$flux")" line=chan,1,1,39,39 taver=5.01 badres=70 primary=$flux,$uranustb[$band] log=bootfluxJ.$cal.log2
 grep Average bootfluxJ.$cal.log2 | grep Flux | cut -c 17-31 > script2_bootflux.$cal.$band
 set tempfluxcal = `awk 'NR==1' script2_bootflux.$cal.$band`
 echo $tempfluxcal
   
 /bin/rm -Rf $vis.$band $vis.$cal.$band.scp $vis.$flux.$band.scp $vis.$band.btrdy
 /bin/rm -Rf bootfluxJ.$cal.log2

end

/bin/rm -Rf $vis.fullpb

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