Abstract
We study the interplay of flavor and dark matter phenomenology for models of flavored dark matter interacting with quarks. We allow an arbitrary flavor structure in the coupling of dark matter with quarks. This coupling is assumed to be the only new source of violation of the Standard Model flavor symmetry extended by a U(3) χ associated with the dark matter. We call this ansatz Dark Minimal Flavor Violation (DMFV) and highlight its various implications, including an unbroken discrete symmetry that can stabilize the dark matter. As an illustration we study a Dirac fermionic dark matter χ which transforms as triplet under U(3) χ , and is a singlet under the Standard Model. The dark matter couples to right-handed down-type quarks via a colored scalar mediator ϕ with a coupling λ. We identify a number of “flavor-safe” scenarios for the structure of λ which are beyond Minimal Flavor Violation. For dark matter and collider phenomenology we focus on the well-motivated case of b-flavored dark matter. The combined flavor and dark matter constraints on the parameter space of λ turn out to be interesting intersections of the individual ones. LHC constraints on simplified models of squarks and sbottoms can be adapted to our case, and monojet searches can be relevant if the spectrum is compressed.
Highlights
Dark matter (DM) provides a strong connection between the two phenomenologically rich arenas: particle astrophysics and beyond Standard Model (SM) physics
In this paper we presented a simplified model of flavored DM
The fermionic DM χ carries flavor and couples to right-handed down quarks transmitted by a colored scalar mediator φ
Summary
Dark matter (DM) provides a strong connection between the two phenomenologically rich arenas: particle astrophysics and beyond Standard Model (SM) physics. Collider searches for DM are sensitive to the DM couplings to various quark flavors, both in terms of the DM production cross section, as well as the flavor pattern of visible final states which can be produced in association with the DM While some of these effects have been explored, the study of flavor phenomenology has largely been restricted to elaborate models such as the MSSM. From the analysis of meson-antimeson mixing observables we identify a number of “flavor-safe” scenarios for the structure of λ These scenarios will be useful for future studies of flavored DM models beyond MFV, as they can be imposed and render detailed re-analyses unnecessary.
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