4.6 Article

Simulating the large-scale structure of HI intensity maps

Journal

Publisher

IOP PUBLISHING LTD
DOI: 10.1088/1475-7516/2016/03/001

Keywords

power spectrum; cosmological simulations; dark matter simulations; cosmic web

Funding

  1. Swiss National Science Foundation [200021_143906]
  2. Swiss National Science Foundation (SNF) [200021_143906] Funding Source: Swiss National Science Foundation (SNF)

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Intensity mapping of neutral hydrogen (HI) is a promising observational probe of cosmology and large-scale structure. We present wide field simulations of HI intensity maps based on N-body simulations of a 2.6 Gpc/h box with 2048(3) particles (particle mass 1.6 x 10(11) M-circle dot/h). Using a conditional mass function to populate the simulated dark matter density field with halos below the mass resolution of the simulation (10(8) M-circle dot/h < M-halo < 10(13) M-circle dot/h), we assign HI to those halos according to a phenomenological halo to HI mass relation. The simulations span a redshift range of 0.35 less than or similar to z less than or similar to 0.9 in redshift bins of width Delta z approximate to 0.05 and cover a quarter of the sky at an angular resolution of about 7'. We use the simulated intensity maps to study the impact of non-linear effects and redshift space distortions on the angular clustering of HI. Focusing on the autocorrelations of the maps, we apply and compare several estimators for the angular power spectrum and its covariance. We verify that these estimators agree with analytic predictions on large scales and study the validity of approximations based on Gaussian random fields, particularly in the context of the covariance. We discuss how our results and the simulated maps can be useful for planning and interpreting future HI intensity mapping surveys.

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