Cosmological parameter forecasts for HI intensity mapping experiments using the angular power spectrum
Abstract
HI intensity mapping is a new observational technique to survey the large-scale structure of matter using the 21 cm emission line of atomic hydrogen (HI). In this work, we simulate BINGO (BAO from Integrated Neutral Gas Observations) and SKA (Square Kilometre Array) phase-1 dish array operating in auto-correlation mode. For the optimal case of BINGO with no foregrounds, the combination of the HI angular power spectra with Planck results allows to be measured with a precision of , while the combination of the BAO acoustic scale with Planck gives a precision of . We consider a number of potentially complicating effects, including foregrounds and redshift dependent bias, which increase the uncertainty on but not dramatically; in all cases the final uncertainty is found to be for BINGO. For the combination of SKA-MID in auto-correlation mode with Planck, we find that, in ideal conditions, can be measured with a precision of for the redshift range (i.e., for the bandwidth of MHz) and for (i.e., MHz). Extending the model to include the sum of neutrino masses yields a upper limit of eV for BINGO and eV for SKA phase 1, competitive with the current best constraints in the case of BINGO and significantly better than them in the case of SKA.
Cite
@article{arxiv.1707.07647,
title = {Cosmological parameter forecasts for HI intensity mapping experiments using the angular power spectrum},
author = {L. C. Olivari and C. Dickinson and R. A. Battye and Y-Z. Ma and A. A. Costa and M. Remazeilles and S. Harper},
journal= {arXiv preprint arXiv:1707.07647},
year = {2017}
}
Comments
18 pages, 7 figures, 6 tables. Updated to match version accepted by MNRAS