Probing Neutralino Resonance Annihilation via Indirect Detection of Dark Matter
Abstract
The lightest neutralino of R-parity conserving supersymmetric models serves as a compelling candidate to account for the presence of cold dark matter in the universe. In the minimal supergravity (mSUGRA) model, a relic density can be found in accord with recent WMAP data for large values of the parameter β, where neutralino annihilation in the early universe occurs via the broad s-channel resonance of the pseudoscalar Higgs boson A. We map out rates for indirect detection of neutralinos via 1. detection of neutrinos arising from neutralino annihilation in the core of the earth or sun and 2. detection of gamma rays, antiprotons and positrons arising from neutralino annihilation in the galactic halo. If indeed A-resonance annihilation is the main sink for neutralinos in the early universe, then signals may occur in the gamma ray, antiproton and positron channels, while a signal in the neutrino channel would likely be absent. This is in contrast to the hyperbolic branch/focus point (HB/FP) region where all indirect detection signals are likely to occur, and also in contrast to the stau co-annihilation region, where none of the indirect signals are likely to occur.
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