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LUX Constraints on Magnetic Dark Matter in the $S\bar{E} χ$y Model with(out) Naturality

We study phenomenological constraints in a simple $S\bar{E} χ$y extension of the Standard Model (SM) with a 125 GeV Higgs, a vector-like heavy electron $(E)$, a complex scalar electron $(S)$ and a standard model singlet Dirac fermion $(χ)$. The interactions among the dark matter candidate $χ$ and the standard model particles occur via loop-induced processes involving the Yukawa interaction $S\bar{E} χ$y. The model is an explicit perturbative realization of so-called magnetic dark matter. The field content allows for a cancelation of quadratic divergences in the scalar masses at one-loop, a phenomenon which we refer to as perturbative naturality. The basic model is constrained dominantly by direct detection experiments and its parameter space can be nearly entirely covered by up-coming ton-scale direct detection experiments. We conclude this work by discussing different variations of the model.

preprint2014arXivOpen access
Mads T. FrandsenFrancesco SanninoIan M. ShoemakerOle Svendsen
hep-ph
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Mads T. FrandsenFrancesco SanninoIan M. ShoemakerOle Svendsen

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