the atmospheric emission signal as seen with sharc-ii
DESCRIPTION
The Atmospheric Emission Signal as seen with SHARC-II. Alexander van Engelen University of British Columbia. Who am I?. Working with: Douglas Scott (UBC) Andy Gibb (UBC) Tim Jenness (JAC, Hilo HI) Dennis Kelly (UK ATC, Edinburgh) on the data reduction pipeline software for SCUBA-2 - PowerPoint PPT PresentationTRANSCRIPT
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The Atmospheric Emission Signal as seen with SHARC-II
Alexander van Engelen
University of British Columbia
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Who am I?
• Working with:– Douglas Scott (UBC)– Andy Gibb (UBC)– Tim Jenness (JAC, Hilo HI)– Dennis Kelly (UK ATC, Edinburgh)
on the data reduction pipeline software for
SCUBA-2 Scanmap research
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Introduction• In sub-mm experiments, atmospheric emission due to
water vapor is the strongest component of the data– Bright– Varies on long spatial and temporal scales
• For data reduction studies it is important to model this in a useful and accurate way
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Current Model
• Use a fluid dynamic model (Kolmogorov) to describe the characteristics of the signal
• In SCUBA-2 simulations the emission from various altitudes is approximated by a single, constant screen of emission – Gaussian 2-D random field– Fixed at an altitude of ~800 m, and blows past
the observatory at the local wind speed
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Atmospheric Emission Image
• Features here are very large
• This constant screen blows past the observatory at ~15 m/s (~5000 arcsec/sec)
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SCUBA-2 scanmap basics
• Simple raster scan• To fill in the under-
sampled 450μm array, scan at an angle of arctan(1/2)≈26.5° to array axes
(courtesy D, Kelly)
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SCUBA-2 scanmap simulation
• Simulated scan over a regular 2-d array of point sources
• Just a simple reprojection of the time series onto a map – nothing fancy here!
• Note streaks due to atmospheric emission signal
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Issues
• Is this truly a Gaussian random field?• Power spectrum?• Constant wind vector?• Component on scales smaller than the array?• How stable are the properties of the screen?
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• In order to learn more about the properties of this signal Colin Borys kindly gave us some SHARC-II data
• Lissajous scan of MS0451
– considered to be faint enough that source flux can be neglected here
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• The data is overwhelmingly common-mode across the array
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Sample array-mean signals
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Sample spectra
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Model predicts (in the timestream)
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Animation
From a data reduction perspective we are interested in whether the atmosphere is completely described by a common-mode signal.
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Residual after a common-mode
signal is subtracted away
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Residual after common-mode subtraction
Still some correlated structures remaining
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Zero-timelag cross-correlations in
residuals
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-Difficult to understand
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Direct detection of Kolmogorov model? (I)
• Compare derivative of array mean with slope of fit plane across the array; positive correlation indicates a comfirmation
• It turns out that for the SHARC-II data the gradient is overwhelmed by instumental effects.
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Direct detection of Kolmogorov model? (II)
• There should be a shift in the signal (of a fraction of a sample) between detectors if the wind speed is reasonable
• Unfortunately it is difficult to measure this explicitly.
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Conclusions
• Since the data is so common-mode, subtracting a simple mean is not ruled out as a way of dealing with the atmospheric emission signal. However, there seem to be some small-amplitude correlated structures that remain.
• No direct detection of the wind-blown screen model was made in SHARC-II data.
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(Fin)