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SKA Long Baseline Configurations Comments

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Central 1km is close packed so log distribution doesn't apply ... Super Massive Binary Black Holes. Eg NGC6240 Roger Brisenden last week ... – PowerPoint PPT presentation

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Title: SKA Long Baseline Configurations Comments


1
SKA Long Baseline ConfigurationsComments
  • Ron Ekers
  • CSIRO
  • 27 Feb 2009

2
Distribution of collecting area
  • Since 2004 we have converged on the distribution
    of area in SKA mid (phase 2)
  • Area stations
  • core lt1km 20 20
  • inner lt5km 50 30
  • mid lt180km 75 25
  • outer 3000km 100 25
  • The stations is based on the usual to
    assumption of 100 stations of 102 m-2 each (eg
    site RFP)
  • This needs an infrastructure cost - benefit
    trade-off
  • Maybe low by x2?

3
Effect of Central Core
  • 50 stations within 5km
  • Central 1km is close packed so log distribution
    doesnt apply
  • This is 50x the weight of individual outer
    stations
  • For this analysis it doesnt matter if you
    consider it a single phased array or 50 nearbye
    stations
  • But either the number or weight have to be
    correct
  • It does effect the correlator requirements and
    FoV shaping

4
Effects at the long baselines
  • Mutifrequency Synthesis
  • Frequency synthesis has a huge impact for VLBI
  • 1 band at 3000km 30km of UV coverage
  • with the log spiral bandwidth synthesis will give
    full coverage with about 10 bandwidth
  • High angular resolution spectral line has very
    modest UV coverage requirements
  • Processed FoV has to be restricted
  • Multiple phased array beams
  • Data compression eliminate empy parts of the FoV

5
Consider the two extremes
  • Natural weighting gives full SKA sensitivity but
    modest UV coverage
  • 20-50 baselines depending on core definition
  • Uniform weighting will give good UV coverage
    but only 25 max sensitivity
  • 300-1200 baselines depending on core definition
  • This can be modelled with Mattiea de Villiers
    algorithm
  • Some science requires max sensitivity, some max
    UV coverage
  • There will be no unique best configuration

6
Sensitivity Limited Science
  • HI absorption VLBI in AGN
  • Eg Arthur Wolfe, Nature 2008
  • 3C286 HI Zeeman, 84uG, z0.69
  • No high UV coverage requirement
  • extragalactic OH masers in starformining galaxies
  • Robishaw and Heiles, 2007
  • No high UV coverage requirement
  • Super Massive Binary Black Holes
  • Eg NGC6240 Roger Brisenden last week
  • Must go fainter to detect all BH

7
Conclusion
  • The optimum configuration for max sensitivity and
    max UV coverage will be different in a core
    dominated array
  • Apart from general requirements for good coverage
    the scientific constraints will be minor compared
    to the logistical constraints
  • Infrastructure cost
  • Access
  • RFI
  • Weather
  • Use the tools to fine tune sensible configurations
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