Constraints on freeze-in dark matter from Lyman-α forest and 21-cm signal : single-field models
Abstract
We report new Lyman-α and 21-cm constraints on freeze-in dark matter (FIDM) which injects energy into the intergalactic medium either through annihilation or decay to photon(s) or electron-positron pair. With respect to Lyman-α we fix the baseline ionization history using low redshift data about astrophysical reionization, whereas for 21-cm signal we adopt the baseline values of 21-cm power spectrum through a standard modeling of star formation developed so far. Using the latest numerical tools, we show that (i) for sterile neutrino FIDM, current Lyman-α data and future sensitivity of SKA-low (1000 hrs) on the 21-cm power spectra excludes the FIDM mass up to 1.8× 10-3 GeV at 95\% CL and 5.46× 10-4 GeV, respectively, and (ii) for millicharged FIDM, current Lyman-α data only excludes the millicharge down to 10-8 within the FIDM mass range of 10-3-1 GeV at 95\% CL, suggesting that the surviving parameter space of millicharged FIDM is still intact.
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