Conversion-Driven Dark Matter in U(1)B-L
Abstract
The new gauge boson Z' in U(1)B-L is widely considered as the mediator of dark matter. In this paper, we propose the conversion-driven dark matter in U(1)B-L. The dark sector contains two Dirac fermions 1 and 2 with U(1)B-L charge 0 and -1, respectively. A Z2 symmetry is also introduced to ensure the stability of dark matter. The mass term δ m 12 induces the mixing of dark fermion. Then the lightest dark fermion 1 becomes the dark matter candidate, whose coupling to Z' is suppressed by the mixing angle θ. Instead of freezing-out via pair annihilation, we show that the observed relic abundance can be obtained through the conversion processes. We then explore the feasible parameter space of conversion-driven dark matter in U(1)B-L. Under various experimental constraints, the conversion-driven dark matter prefers the region with 3×10-6 g'2×10-4 and 0.02~GeV mZ'10~GeV, which is within the reach of future Belle II, FASER and SHiP.
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