Recognition: unknown
Stau-catalyzed d-t Nuclear Fusion
classification
✦ hep-ph
nucl-th
keywords
fusionnuclearparticlestaustau-catalyzedbecomescalculationcase
read the original abstract
The gravitino of mass 10-100 GeV is a well motivated scenario in supergravity. If the stau is the next lightest supersymmetry particle, its life-time becomes order of $10^{6-8}$ sec. If it is the case the stau makes a big impact on the nuclear fusion, since it is a charged particle. In this paper we perform a detailed calculation of a stau-catalyzed d-t fusion. We find that if certain technical conditions are satisfied, it is not hopeless to use the nuclear fusion as a source of energy.
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