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On the variance of radio interferometric calibration solutions: Quality-based Weighting Schemes

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arxiv 1711.00421 v2 pith:MXO5VNC3 submitted 2017-11-01 astro-ph.IM stat.AP

On the variance of radio interferometric calibration solutions: Quality-based Weighting Schemes

classification astro-ph.IM stat.AP
keywords calibrationimageinterferometricrelationshipvisibilitiesweightingcovariancefourier
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This paper investigates the possibility of improving radio interferometric images using an algorithm inspired by an optical method known as "lucky imaging", which would give more weight to the best-calibrated visibilities used to make a given image. A fundamental relationship between the statistics of interferometric calibration solution residuals and those of the image-plane pixels is derived in this paper. This relationship allows us to understand and describe the statistical properties of the residual image. In this framework, the noise-map can be described as the Fourier transform of the covariance between residual visibilities in a new differential Fourier plane. Image-plane artefacts can be seen as one realisation of the pixel covariance distribution, which can be estimated from the antenna gain statistics. Based on this relationship, we propose a means of improving images made with calibrated visibilities using weighting schemes. This improvement would occur after calibration, but before imaging - it is thus ideally used between major iterations of self-calibration loops. Applying the weighting scheme to simulated data improves the noise level in the final image at negligible computational cost.

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