Source Detection with Interferometric Datasets

Trott, Cathryn; Wayth, Randall; Macquart, Jean-Pierre; Tingay, Steven

doi:10.1017/S1743921312001263

Access Status

Open access via publisher

Authors

Trott, Cathryn

Wayth, Randall

Macquart, Jean-Pierre

Tingay, Steven

Date

2012

Type

Conference Paper

Metadata

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Citation

Trott, Cathryn and Wayth, Randall and Macquart, Jean-Pierre and Tingay, Steven. 2012. Source Detection with Interferometric Datasets, in R E M Griffiths, R J Hanisch, R Seaman (ed), 285th Symposium of the International Astronomical Union, Sep 19 2011, pp. 414-416. Oxford, UK: Cambridge University Press.

Source Title

New Horizons in Time-Domain Astronomy

Source Conference

285th Symposium of the International-Astronomical-Union

Abstract

The detection of sources in interferometric radio data typically relies on extracting information from images, formed by Fourier transform of the underlying visibility dataset, and CLEANed of contaminating sidelobes through iterative deconvolution. Variable and transient radio sources span a large range of variability timescales, and their study has the potential to enhance our knowledge of the dynamic universe. Their detection and classification involve large data rates and non-stationary PSFs, commensal observing programs and ambitious science goals, and will demand a paradigm shift in the deployment of next-generation instruments. Optimal source detection and classification in real time requires efficient and automated algorithms. On short time-scales variability can be probed with an optimal matched filter detector applied directly to the visibility dataset. This paper shows the design of such a detector, and some preliminary detection performance results.