Probing cosmology and gastrophysics with fast radio bursts: Cross-correlations of dark matter haloes and cosmic dispersion measures

Abstract

For future surveys of fast radio bursts (FRBs), we clarify information available from cosmic dispersion measures (DMs) through cross-correlation analyses of foreground dark matter haloes (hosting galaxies and galaxy clusters) with their known redshifts. With a halo-model approach, we predict that the cross-correlation with cluster-sized haloes is less affected by the details of gastrophysics, providing robust cosmological information. For less massive haloes, the cross-correlation at angular scales of <10\, arcmin is sensitive to gas expelled from the halo centre due to galactic feedback. Assuming 20000 FRBs over 20000 \, deg2 with a localisation error being 3 arcmin, we expect that the cross-correlation signal at halo masses of 1012-1014\, M can be measured with a level of 1\% precision in a redshift range of 0<z<1. Such precise measurements enable one to put a 1.5\% level constraint on σ8\, (M/0.3)0.5 and a 3\% level constraint on (b/0.049)(h/0.67)(fe/0.95) (σ8, M, b, h and fe are the linear mass variance smoothed at 8\, h-1Mpc, mean mass density, mean baryon density, the present-day Hubble parameter and fraction of free electrons in cosmic baryons today), whereas the gas-to-halo mass relation in galaxies and clusters can be constrained with a level of 10\%-20\%. Furthermore the cross-correlation analyses can break the degeneracy among b, h and fe, inherent in the DM-redshift relation. Our proposal opens new possibilities for FRB cosmology, while it requires extensive galaxy redshift catalogues and further improvement of the halo model.