📝 SummarXiv

Abstract

It is anticipated that the faint 21 cm signal emitted by neutral hydrogen within cosmic filaments can be detected. However, because of the signal's weakness, stacking techniques are necessary. We assessed two stacking methods--pair stacking and filament stacking--using the EAGLE and IllustrisTNG simulations. Pair stacking leverages the fact that cosmic filaments serve as the connectors between cosmic web nodes, while filament stacking directly aggregates cosmic filaments identified by galaxy distributions. Our analysis indicates that, although pair stacking is convenient, it faces contamination from massive structures, the signal from filament gets very weak after the contamination is removed. Conversely, HI detection via filament stacking appears more viable. The column density exceeds $10^{17} \,{\rm cm}^{-2}$ even when all halos are masked, and it is nearly 10 times higher than what is achieved with pair stacking. The effectiveness of filament stacking could further increase with a high number density galaxy catalog and better spatial resolution in radio observation intensity mapping. With the advent of new optical and radio data, the future detection of HI filaments looks promising.