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W4206805989 abstract "We extend the fraternal twin Higgs scenario to include a novel dark matter candidate as well as a mechanism for generating a matter/antimatter asymmetry in both sectors. A spontaneous breaking of twin color results in quark degrees of freedom that are singlets under the residual twin color group. These twin-color-singlet quarks, along with a subdominant component of twin leptons, constitute the asymmetric dark matter. The asymmetry between matter in antimatter in both sectors is cogenerated from the decay of singlet fermions that provide an additional portal between the visible and twin sectors. We discuss the phenomenological aspects of this model, evaluating constraints on the parameter space and highlighting promising discovery channels in future experiments. We briefly discuss how the discovery of signals in multiple experiments may help establish the connection between the mechanisms that address the naturalness, dark matter and matter/antimatter asymmetry puzzles." @default.
W4206805989 created "2022-01-25" @default.
W4206805989 creator A5020242987 @default.
W4206805989 creator A5049269282 @default.
W4206805989 creator A5069171351 @default.
W4206805989 date "2021-12-21" @default.
W4206805989 modified "2023-10-17" @default.
W4206805989 title "Twin quark dark matter from cogenesis" @default.
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W4206805989 doi "https://doi.org/10.1103/physrevd.104.116018" @default.
W4206805989 hasPublicationYear "2021" @default.
W4206805989 type Work @default.