The Tracking Tapered Gridded Estimator for the 21-cm power spectrum from MWA drift scan observations I: Validation and preliminary results
Abstract
Drift scan observations provide the broad sky coverage and instrumental stability needed to measure the Epoch of Reionization (EoR) 21-cm signal. In such observations, the telescope's pointing center (PC) moves continuously on the sky. The Tracking Tapered Gridded Estimator (TTGE) combines observations from different PC to estimate P(k, k) the 21-cm power spectrum, centered on a tracking center (TC) which remains fixed on the sky. The tapering further restricts the sky response to a small angular region around TC, thereby mitigating wide-field foregrounds. Here we consider 154.2 \, MHz (z = 8.2) Murchison Widefield Array (MWA) drift scan observations. The periodic pattern of flagged channels, present in MWA data, is known to introduce artefacts which pose a challenge for estimating P(k, k). We demonstrate that the TTGE is able to recover P(k, k) without any artefacts, and estimate P(k) within 5 \% accuracy over a large k-range. We also present preliminary results for a single PC, combining 9 nights of observation (17 \, min total). We find that P(k, k) exhibits streaks at a fixed interval of k=0.29 \, Mpc-1, which matches per=1.28 \, MHz that is the period of the flagged channels. The streaks are not as pronounced at larger k, and in some cases they do not appear to extend across the entire k range. The rectangular region 0.05 ≤ k ≤ 0.16 \, Mpc-1 and 0.9 ≤ k ≤ 4.6 \, Mpc-1 is found to be relatively free of foreground contamination and artefacts, and we have used this to place the 2σ upper limit 2(k) < (1.85 × 104)2\, mK2 on the EoR 21-cm mean squared brightness temperature fluctuations at k=1 \, Mpc-1.
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