Towards 21-cm intensity mapping at z=2.28 with uGMRT using the tapered gridded estimator III: Foreground removal

Abstract

Neutral hydrogen (HI) 21-cm intensity mapping (IM) is a promising probe of the large-scale structures in the Universe. However, a few orders of magnitude brighter foregrounds obscure the IM signal. Here we use the Tapered Gridded Estimator (TGE) to estimate the multi-frequency angular power spectrum (MAPS) C() from a 24.4\,MHz bandwidth uGMRT Band 3 data at 432.8\,MHz. In C() foregrounds remain correlated across the entire range, whereas the 21-cm signal is localized within [ ] (typically 0.5-1\,MHz). Assuming the range >[ ] to have minimal 21-cm signal, we use C() in this range to model the foregrounds. This foreground model is extrapolated to ≤[ ], and subtracted from the measured C(). The residual [C()] res in the range [] is used to constrain the 21-cm signal, compensating for the signal loss from foreground subtraction. [C()]res is found to be noise-dominated without any trace of foregrounds. Using [C()] res we constrain the 21-cm brightness temperature fluctuations 2(k), and obtain the 2σ upper limit UL2(k)≤(18.07)2\,mK2 at k=0.247\,Mpc-1. We further obtain the 2σ upper limit [ HIb HI] UL≤0.022 where HI and b HI are the comoving HI density and bias parameters respectively. Although the upper limit is nearly 10 times larger than the expected 21-cm signal, it is 3 times tighter over previous works using foreground avoidance on the same data.