Predictions for BAO distance estimates from the cross-correlation of the Lyman-alpha forest and redshifted 21-cm emission

Abstract

We investigate the possibility of using the cross-correlation of the Lyman-alpha forest and redshifted 21-cm emission to detect the baryon acoustic oscillation (BAO). The standard Fisher matrix formalism is used to determine the accuracy with which it will be possible to measure cosmological distances using this signal. Earlier predictions indicate that it will be possible to measure the dilation factor DV with 1.9 % accuracy at z=2.5 from the BOSS Lyman-alpha forest auto-correlation. In this paper we investigate if it is possible to improve the accuracy using the cross-correlation. We use a simple parametrization of the Lyman-alpha forest survey which very loosely matches some properties of BOSS and predicts delta DV/DV = 2.0 % for the auto-correlation at z=2.5. For the redshifted 21-cm observations we consider individual antennas of size 2 m * 2 m distributed such that the baselines within 250 m are uniformly sampled. It is assumed that the observations span z=2 to 3 and covers the 10,000 deg2 sky coverage of BOSS. We find that for 2 years of observation with an array of 2,000 antennas, the cross-correlation is 1.7 times more sensitive than the Lyman-alpha forest auto-correlation. The cross-correlation is 2.7 times more sensitive than the auto-correlation if we have 4,000 antennas and 4 years of observation. In conclusion, we find that it is possible to significantly increase the accuracy of the distance estimates by considering the cross-correlation signal.