Prospects for kSZ2- 21cm2 Cross-Correlations during Reionization
Abstract
The 21\,cm line and the patchy kinetic Sunyaev-Zel'dovich (kSZ) effect are promising and complementary probes of the Epoch of Reionization (EoR). A challenge for cross-correlating these two signals is that foreground avoidance or removal algorithms applied to the 21\,cm data inevitably sacrifice Fourier modes with long wavelengths along the line-of-sight (i.e., low-k modes), yet only these same modes contribute to the kSZ signal. Here we show that a suitable kSZ2 × 21\,cm2 cross-correlation statistic nevertheless remains non-vanishing, even after filtering out the corrupted low-k Fourier modes from the 21\,cm data. We simulate the kSZ2 × 21\,cm2 cross-correlation signal across reionization-era redshifts and find distinctive redshift evolution. This signal peaks early in the reionization history, when the volume-averaged fraction is around 0.1 xHII 0.2, after which it changes sign and reaches a minimum near reionization's midpoint (xHII 0.5), while the signal gradually vanishes as reionization completes. These trends appear generic across three simulated models which differ in their reionization histories. We forecast the detectability of the kSZ2 × 21\,cm2 cross-power spectrum for the HERA and SKA1-Low 21\,cm experiments in combination with current and next-generation CMB surveys including the Simons Observatory, CMB-S4, and CMB-HD. We find that a high-significance detection (S/N 5σ) is possible with SKA1-Low and CMB-S4.
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