The Tracking Tapered Gridded Estimator for the 21-cm power spectrum from MWA drift scan observations II: The Missing Frequency Channels
Abstract
Missing frequency channels pose a problem for estimating P(k,k) the redshifted 21-cm power spectrum (PS) from radio-interferometric visibility data. This is particularly severe for the Murchison Widefield Array (MWA), which has a periodic pattern of missing channels that introduce spikes along k. The Tracking Tapered Gridded Estimator (TTGE) overcomes this by first correlating the visibilities in the frequency domain to estimate the multi-frequency angular power spectrum (MAPS) C() that has no missing frequency separation . We perform a Fourier transform along to estimate P(k,k). Considering our earlier work, simulations demonstrate that the TTGE can estimate P(k,k) without any artifacts due to the missing channels. However, the spikes were still found to persist for the actual data, which is foreground-dominated. The current work presents a detailed investigation considering both simulations and actual data. We find that the spikes arise due to a combination of the missing channels and the strong spectral dependence of the foregrounds. Based on this, we propose and demonstrate a technique to mitigate the spikes. Applying this, we find the values of P(k,k) in the region 0.004 ≤ k ≤ 0.048\, Mpc-1 and k > 0.35 \, Mpc-1 to be consistent with zero within the expected statistical fluctuations. We obtain the 2σ upper limit of UL2(k)=(918.17)2\, mK2 at k=0.404\, Mpc-1 for the mean squared brightness temperature fluctuations of the z=8.2 epoch of reionization (EoR) 21-cm signal. This upper limit is from just 17 minutes of observation for a single pointing direction. We expect tighter constraints when we combine all 162 different pointing directions of the drift scan observation.
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