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Paper detail

Foreground Removal using FastICA: A Showcase of LOFAR-EoR

We introduce a new implementation of the FastICA algorithm on simulated LOFAR EoR data with the aim of accurately removing the foregrounds and extracting the 21-cm reionization signal. We find that the method successfully removes the foregrounds with an average fitting error of 0.5 per cent and that the 2D and 3D power spectra are recovered across the frequency range. We find that for scales above several PSF scales the 21-cm variance is successfully recovered though there is evidence of noise leakage into the reconstructed foreground components. We find that this blind independent component analysis technique provides encouraging results without the danger of prior foreground assumptions.

preprint2012arXivOpen access
Emma ChapmanFilipe B. AbdallaGeraint HarkerVibor JelićPanagiotis LabropoulosSaleem ZaroubiMichiel A. BrentjensA. G. de BruynL. V. E. Koopmans
astro-ph.CO
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Emma ChapmanFilipe B. AbdallaGeraint HarkerVibor JelićPanagiotis LabropoulosSaleem ZaroubiMichiel A. BrentjensA. G. de BruynL. V. E. Koopmans

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