Abstract
We study the implications of non-standard Higgs Yukawa couplings to light quarks on Higgs-portal dark matter phenomenology. Saturating the present experimental bounds on up-quark, down-quark, or strange-quark Yukawa couplings, the predicted direct dark matter detection scattering rate can increase by up to four orders of magnitude. The effect on the dark matter annihilation cross section, on the other hand, is subleading unless the dark matter is very light -- a scenario that is already excluded by measurements of the Higgs invisible decay width. We investigate the expected size of corrections in multi-Higgs-doublet models with natural flavor conservation, the type-II two-Higgs-doublet model, the Giudice-Lebedev model of light quark masses, minimal flavor violation new physics models, Randall-Sundrum, and composite Higgs models. We find that an enhancement in the dark matter scattering rate of an order of magnitude is possible. Finally, we point out that a discovery of Higgs-portal dark matter could lead to interesting bounds on the light-quark Yukawa couplings.
Highlights
In Higgs-portal models [1,2,3,4,5,6,7,8,9,10] of dark matter (DM) the Higgs is usually assumed to be completely Standard Model (SM) like apart from its couplings to DM
Modified Yukawa couplings to light quarks could have implications for DM searches
In this paper we focused on Higgs-portal DM
Summary
In Higgs-portal models [1,2,3,4,5,6,7,8,9,10] of dark matter (DM) the Higgs is usually assumed to be completely Standard Model (SM) like apart from its couplings to DM. This leads to more realistic expectations as to how large the deviations in the direct DM detection rates can be due to the poorly known Higgs couplings to the light quarks. A somewhat surprising result of our investigation is that, if DM is discovered and turns out to be a thermal relic predominantly interacting through a Higgs portal, it could be used to constrain the light-quark Yukawa couplings.
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