# Unified Dark Matter from a Simple Gauge Group on a Domain-Wall Brane

**Authors:** Benjamin D. Callen

arXiv: 1705.02086 · 2017-05-08

## TL;DR

This paper proposes a novel framework for unifying visible and dark matter sectors using a 4+1-dimensional domain-wall brane model with a generalized Dvali-Shifman mechanism, leading to a low-energy effective theory with separated gauge groups.

## Contribution

It introduces a clash-of-symmetries domain wall solution in higher dimensions to achieve gauge symmetry breaking and sector unification, extending previous models with new gauge group configurations.

## Key findings

- Successfully models $SU(12)$ breaking to $SU(5)_V \times SU(5)_D \times U(1)_X$ on a domain wall.
- Fermions in mixed representations remain vector-like and acquire GUT-scale masses.
- Outlines alternative models based on $SU(9)$, $SU(12)$, and $SU(10)$ groups.

## Abstract

Some models of asymmetric dark matter commonly employ a gauge group structure of the form $G_{V}\times{}G_{D}$ where $G_{V}$ is the visible gauge group containing the Standard Model and $G_{D}$ is the gauge group responsible for self-interactions amongst components of dark matter. In some models, there is also an additional spontaneously broken $U(1)$ gauge symmetry coupling the visible and dark sectors at high energies. One theoretical problem is how to unify the visible and dark sectors by inducing the spontaneous breaking $G\rightarrow{}G_{V}\times{}G_{D}$ for some large gauge group $G$. In this paper, we discuss how to generate such a structure at low energies, in the context of 4+1-dimensional domain-wall brane model, by employing a generalization of the Dvali-Shifman mechanism, used to localized gauge bosons on domain walls, called the clash-of-symmetries mechanism. In one model, we describe a clash-of-symmetries domain wall solution in a theory with two scalar fields in the adjoint representation which breaks the group $SU(12)$ to two differently embedded copies of $SU(6)\times{}SU(6)\times{}U(1)$, leading to a an effective $SU(5)_{V}\times{}SU(5)_{D}\times{}U(1)_{X}$-invariant field theory on the wall. We find that fermions in the mixed representations of $SU(5)_{V}\times{}SU(5)_{D}$ do not couple to the domain wall and thus remain 5D vector-like Dirac fermions, attaining masses of order $M_{GUT}$ when we perform the breaking $SU(5)_{V}\rightarrow{}SU(3)_{c}\times{}SU(2)_{I}\times{}U(1)_{Y}$, thus being removed from the spectrum. We also outline how to build a few alternative models, one based on the group $SU(9)$, and a couple more based on non-clash-of-symmetries domain wall solutions in $SU(12)$ and $SU(10)$ models.

## Full text

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## Figures

32 figures with captions in the complete paper: https://tomesphere.com/paper/1705.02086/full.md

## References

52 references — full list in the complete paper: https://tomesphere.com/paper/1705.02086/full.md

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Source: https://tomesphere.com/paper/1705.02086