Particle decay in the early universe: predictions for 21 cm
Abstract
The influence of ultra-high energy cosmic rays (UHECRs) and decaying dark matter particles on the emission and absorption characteristics of neutral hydrogen in 21 cm at redshifts z = 10-50 is considered. In presence of UHECRs 21 cm can be seen in absorption with the brightness temperature Tb=-(5-10) mK in the range z=10-30. Decayng particles can stimulate a 21 cm signal in emission with Tb 50-60 mK at z =50, and Tb 10 mK at z 20. Characteristics of the fluctuations of the brightness temperature, in particular, its power spectrum are also calculated. The maps of the power spectrum of the brightness temperature on the plane wavenumber-redshift are shown to be sensitive to the parameters of UHECRs and decaying dark matter. Observational possibilities to detect manifestations of UHECRs and/or decaying particles in 21 cm with the future radio telescopes (LOFAR, 21CMA and SKA), and to distinguish contributions from them are briefly discussed.
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