Publication Date:
2015-10-19
Description:
H i intensity mapping is an emerging tool to probe dark energy. Observations of the redshifted H i signal will be contaminated by instrumental noise, atmospheric and Galactic foregrounds. The latter is expected to be four orders of magnitude brighter than the H i emission we wish to detect. We present a simulation of single-dish observations including an instrumental noise model with 1/ f and white noise, and sky emission with a diffuse Galactic foreground and H i emission. We consider two foreground cleaning methods: spectral parametric fitting and principal component analysis. For a smooth frequency spectrum of the foreground and instrumental effects, we find that the parametric fitting method provides residuals that are still contaminated by foreground and 1/ f noise, but the principal component analysis can remove this contamination down to the thermal noise level. This method is robust for a range of different models of foreground and noise, and so constitutes a promising way to recover the H i signal from the data. However, it induces a leakage of the cosmological signal into the subtracted foreground of around 5 per cent. The efficiency of the component separation methods depends heavily on the smoothness of the frequency spectrum of the foreground and the 1/ f noise. We find that as long as the spectral variations over the band are slow compared to the channel width, the foreground cleaning method still works.
Print ISSN:
0035-8711
Electronic ISSN:
1365-2966
Topics:
Physics
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