Probing Decaying Dark Matter Using the Post-EoR HI 21-cm signal
Abstract
We propose the HI 21-cm power spectrum from the post-reionization epoch as a probe of a cosmological model with decaying dark matter particles. The unstable particles are assumed to undergo a 2-body decay into a massless and massive daughter. We assume that a fraction f of the total dark matter budget to be unstable and quantify the decay using the life time -1 and the relative mass splitting ε between the parent and the massive daughter. The redshift space anisotropic power spectrum of the post-reionization 21-cm signal brightness temperature, as a tracer of the dark matter clustering, imprints the decaying dark matter model through its effect on background evolution and the suppression of power on small scales. We find that with an idealized futuristic intensity mapping experiment with a SKA1-Mid like radio-array, ε and can be measured at 3.37\% and 6.86\% around their fiducial values of ε = 0.012 and = 0.008 Gyr-1 respectively. When only the foreground-free window is considered in the k- space, these percentage errors in ε and degrade to 9.91\% and 12.03\% respectively.The forecasts under identical assumptions for a second, literature-anchored benchmark (ε=1.14×10-4, =1.04×10-3\,Gyr-1) yields projected uncertainties of 6.16\% on ε and 8.29\% on while, restricting to the foreground-free window increases these to 18.77\% and 14.22\%, respectively.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.