PPdisk simdata (CASA 3.1): Difference between revisions
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{{Simulations Intro}} | {{Simulations Intro 3.1}} | ||
[[Category: Simulations]] | [[Category: Simulations]] | ||
== Protoplanetary disk == | == Protoplanetary disk == | ||
[ftp://ftp.cv.nrao.edu/NRAO-staff/rindebet/input50pc_672GHz.fits | *[ftp://ftp.cv.nrao.edu/NRAO-staff/rindebet/input50pc_672GHz.fits This fits file] is a model of a protoplanetary disk from S. Wolf (If you use it for anything more than learning CASA, please cite [http://adsabs.harvard.edu/abs/2005ApJ...619.1114W Wolf & D'Angelo 2005]). | ||
*Simdata version for CASA 3.1 | |||
__NOTOC__ | |||
<br> | |||
====Explanation of the script==== | |||
=====Set simdata as current task and reset all parameters===== | |||
default("simdata") | |||
=====Specify sky model image===== | |||
modelimage = "input50pc_672GHz.fits" | |||
=====Image coordinate system can be verified===== | |||
imhead("input50pc_672GHz.fits") | |||
=====Image center can be identified===== | |||
# ia.open("input50pc_672GHz.fits") | |||
# ia.shape() | |||
# [257L, 257L, 1L, 1L] | |||
# ia.toworld([128.5,128.5]) | |||
# {'numeric': array([ 4.71239120e+00, -4.01423802e-01, 1.00000000e+00, 6.72000001e+11])} | |||
# qa.formxxx("4.71239120rad",format='hms',prec=5) | |||
# '18:00:00.03052' | |||
# qa.formxxx("-0.401423802rad",format='dms',prec=5) | |||
# '-022.59.59.602743' | |||
# ia.done() | |||
=====Brightness scale can be viewed with 'imstat' task===== | |||
# imstat("input50pc_672GHz.fits") | |||
# ... | |||
# 'max': array([ 6.52469971e-05]), | |||
# ... | |||
# that's 0.0652 mJy/pixel. | |||
=====Let's leave the brightness of the image as it is===== | |||
inbright = "unchanged" | |||
=====Let's call our project psim2===== | |||
project = "psim2" | |||
=====We'll leave the sky model the way it is: simdata will create psim2.skymodel CASA image since this model is a fits file, and most but not all of CASA routines can operate directly on fits===== | |||
modifymodel = False | |||
skymodel = "input50pc_672GHz.fits" | |||
=====We need to decide where to point the telescope. The image is 2/3 arcsec in size, so we only need one pointing. We could put that in a text file ourself, or let simdata create the ascii pointing file for us.===== | |||
setpointings = True | |||
direction = "J2000 18h00m00.031s -22d59m59.6s" | |||
mapsize = "0.76arcsec" | |||
=====The default pointingspacing is fine: we'll only fit one pointing in the small mapsize the default calculation maptype hexagonal is ok too since only one will fit anyway.===== | |||
=====We do want to calculate visibilities in a measurement set: let's do a 20 min snapshot observation using out20 configuration:===== | |||
predict = True | |||
totaltime = "1200s" | |||
=====Use appropriate antenna configurations based on desired angular resolution===== | |||
repodir=os.getenv("CASAPATH").split(' ')[0] | |||
antennalist = repodir+"/data/alma/simmos/alma.out20.cfg" | |||
=====Deconvolve the visibilities back into an image===== | |||
image = True | |||
vis = "$project.ms" | |||
imsize = [192, 192] | |||
=====Specify number of iteration of cleaning task with proper threshold and weighting===== | |||
niter = 10000 | |||
threshold = "1e-7Jy" | |||
weighting = "natural" | |||
=====We'd like to calculate a difference and fidelity image, and see some diagnostics:===== | |||
analyze = True | |||
=====And see the array but not the UV coverage:===== | |||
showarray = True | |||
showuv = False | |||
=====Plot both to the screen and the png files with lots of messages:===== | |||
graphics = "both" | |||
verbose = True | |||
overwrite = True | |||
===To run the script === | |||
CASA<> execfile("Ppdisk.simdata.txt") | |||
CASA<> go simdata | |||
<br> | |||
*Output results: | |||
{| style="border:1px solid #3366FF; " cellspacing=2 | {| style="border:1px solid #3366FF; " cellspacing=2 |
Latest revision as of 22:28, 28 April 2011
↵ Simulating Observations in CASA 3.1
Protoplanetary disk
- This fits file is a model of a protoplanetary disk from S. Wolf (If you use it for anything more than learning CASA, please cite Wolf & D'Angelo 2005).
- Simdata version for CASA 3.1
Explanation of the script
Set simdata as current task and reset all parameters
default("simdata")
Specify sky model image
modelimage = "input50pc_672GHz.fits"
Image coordinate system can be verified
imhead("input50pc_672GHz.fits")
Image center can be identified
# ia.open("input50pc_672GHz.fits") # ia.shape() # [257L, 257L, 1L, 1L] # ia.toworld([128.5,128.5]) # {'numeric': array([ 4.71239120e+00, -4.01423802e-01, 1.00000000e+00, 6.72000001e+11])} # qa.formxxx("4.71239120rad",format='hms',prec=5) # '18:00:00.03052' # qa.formxxx("-0.401423802rad",format='dms',prec=5) # '-022.59.59.602743' # ia.done()
Brightness scale can be viewed with 'imstat' task
# imstat("input50pc_672GHz.fits") # ... # 'max': array([ 6.52469971e-05]), # ... # that's 0.0652 mJy/pixel.
Let's leave the brightness of the image as it is
inbright = "unchanged"
Let's call our project psim2
project = "psim2"
We'll leave the sky model the way it is: simdata will create psim2.skymodel CASA image since this model is a fits file, and most but not all of CASA routines can operate directly on fits
modifymodel = False skymodel = "input50pc_672GHz.fits"
We need to decide where to point the telescope. The image is 2/3 arcsec in size, so we only need one pointing. We could put that in a text file ourself, or let simdata create the ascii pointing file for us.
setpointings = True direction = "J2000 18h00m00.031s -22d59m59.6s" mapsize = "0.76arcsec"
The default pointingspacing is fine: we'll only fit one pointing in the small mapsize the default calculation maptype hexagonal is ok too since only one will fit anyway.
We do want to calculate visibilities in a measurement set: let's do a 20 min snapshot observation using out20 configuration:
predict = True totaltime = "1200s"
Use appropriate antenna configurations based on desired angular resolution
repodir=os.getenv("CASAPATH").split(' ')[0] antennalist = repodir+"/data/alma/simmos/alma.out20.cfg"
Deconvolve the visibilities back into an image
image = True vis = "$project.ms" imsize = [192, 192]
Specify number of iteration of cleaning task with proper threshold and weighting
niter = 10000 threshold = "1e-7Jy" weighting = "natural"
We'd like to calculate a difference and fidelity image, and see some diagnostics:
analyze = True
And see the array but not the UV coverage:
showarray = True showuv = False
Plot both to the screen and the png files with lots of messages:
graphics = "both" verbose = True overwrite = True
To run the script
CASA<> execfile("Ppdisk.simdata.txt")
CASA<> go simdata
- Output results:
Input: |
Predict: |
Image: |
Analyze: |