LIGHT PHOTINOS AS DARK MATTER

Abstract

There are good reasons to consider models of low-energy supersymmetry with very light photinos and gluinos. In a wide class of models the lightest R-odd, color-singlet state containing a gluino, the 0, has a mass in the 1-2 GeV range and the slightly lighter photino, , would survive as the relic R-odd species. For the light photino masses considered here, previous calculations resulted in an unacceptable photino relic abundance. But we point out that processes other than photino self-annihilation determine the relic abundance when the photino and R0 are close in mass. Including 0 processes, we find that the photino relic abundance is most sensitive to the 0-to- mass ratio, and within model uncertainties, a critical density in photinos may be obtained for an 0-to- mass ratio in the range 1.2 to 2.2. We propose photinos in the mass range of 500 MeV to 1.6 GeV as a dark matter candidate, and discuss a strategy to test the hypothesis.

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