Cosmic Microwave Background constraint on residual annihilations of relic particles
Abstract
Energy injected into the Cosmic Microwave Background at redshifts z<106 will distort its spectrum permanently. In this paper we discuss the distortion caused by annihilations of relic particles. We use the observational bounds on deviations from a Planck spectrum to constrain a combination of annihilation cross section, mass, and abundance. For particles with (s-wave) annihilation cross section, <σ|v|>=σ0, the bound is f[(σ0/6e-27cm3/s)(XXh2)2]/(mX/MeV)<0.2, where mX is the particle mass, XX is the fraction of the critical density the particle and its antiparticle contribute if they survive to the present time, h=H0/(100km/s/Mpc), H0 is the Hubble constant, and f is the fraction of the annihilation energy that interacts electromagnetically. We also compute the less stringent limits for p-wave annihilation. We update other bounds on residual annihilations and compare them to our CMB bound.
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