F\'eeton (B-L Gauge Boson) Dark Matter Testable in Future Direct Detection Experiments
Abstract
In this paper, we revisit the f\'eeton (gauge boson of U(1)B-L symmetry) dark matter scenario, and first point out the U(1) gauge symmetry can be a linear combination of the B-L and the SM hypercharge gauge symmetries. With the redefinition of B-L charge of fermions, the coupling between electron and f\'eeton can be enhanced. After showing the parameter space required from the DM stability and cosmic production, we discuss the potential for verifying them in dark matter direct detection experiments. The results show that future experiments, such as SuperCDMS, have a sensitivity to reach the f\'eeton DM region consistent with its cosmic production.
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