Interpretation of 21 cm Auto Power Spectrum Measurement at z 1 by the Canadian Hydrogen Intensity Mapping Experiment

Abstract

Observations with the Canadian Hydrogen Intensity Mapping Experiment (CHIME) have been used to measure the 21 cm intensity mapping auto power spectrum, at z 1, over a frequency range from 608.2 MHz to 707.8 MHz at wavenumbers 0.4~h~ Mpc-1 k 1.5~h~ Mpc-1. In this paper, we present the results of two different approaches to interpreting this measurement. In the first approach, we use a parametric power spectrum model to constrain an amplitude parameter, defined as A2 HI 106 HI2(b2 HI+ f μ2)2, where HI is the cosmological density parameter for atomic hydrogen ( HI), b HI is the linear bias for HI, and f μ2 incorporates the dominant large-scale impact of redshift-space distortions on the angle-averaged power spectrum. Imposing an additional prior on either HI or b HI, based on values in the literature, allows us to break the pairwise degeneracy between those two parameters. In the second approach, we compare CHIME's measurement with predictions for the power spectrum of HI from the IllustrisTNG simulations, finding that the measurement disagrees with the TNG100 run at 3.1σ and the TNG300 run at 4.0σ. This disagreement is most likely attributable to the strength of nonlinear redshift-space clustering of HI in the simulations, rather than the total abundance of HI, and invites further investigation of the physical processes in the simulations that determine the behavior of HI at nonlinear scales. These results exemplify the ability of 21 cm intensity mapping to provide astrophysical information using measurements at nonlinear scales.

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