Local primordial non-Gaussianity from 'zero-bias' 21cm radiation during reionization
Abstract
We revisit the potential of 21cm radiation fluctuations, during the epoch of reionization, in constraining the amplitude of local primordial non-Gaussianity (PNG) f NL loc. There generically exists an epoch at which the linear bias of the 21cm field crosses zero, independent of the precise astrophysics of reionization. This epoch implies the 21cm radiation is a natural "zero-bias tracer" in the sense of Castorina et al (2018). We identify new noise-like contributions which directly compete with the zero-bias effect, but which should be mitigated through sophisticated analysis techniques such as field-level reconstruction. These noise-like terms act to hinder the constraining power on local PNG of the brightness temperature fluctuations, making σ (f NL loc) ≤ 1 unachievable even in simplified forecasts. We show that analyses which can reach the 'sampling noise' floor for this tracer and harness its full power can potentially unlock a 10-fold reduction in error bars, even in the presence of large-scale cuts from foregrounds. The potential of this epoch motivates searching for it in future 21cm surveys, along with developing analysis techniques that can reach the noise floor required for the zero-bias epoch to saturate Fisher information.
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