The optical depth of foregrounds for the highest redshift 21 cm signals

Abstract

ABSTRACT Foreground emission makes it difficult to detect the highly redshifted cosmological 21 cm signal at any frequency. However, at low frequencies, foregrounds are likely to become optically thick, which would make it completely impossible to see a 21 cm signal behind them. To find out which regions of the sky might be optically thick for the highest redshifts of the 21 cm signal, we fit the measurements from LWA1 and the Haslam 408 MHz map with a two-component spectral model and calculate the frequency-dependent foreground optical depth point-by-point across the sky. Limitations of the current data prevent us from making any strong conclusions at high statistical significance, but there is suggestive evidence (∼1σ) that as much as 25 per cent of the sky could be obscured for the highest redshift 21 cm signals.