# Dark matter and flavor changing in the flipped 3-3-1 model

**Authors:** D. T. Huong, D. N. Dinh, L. D. Thien, Phung Van Dong

arXiv: 1906.05240 · 2019-08-12

## TL;DR

This paper explores a flipped 3-3-1 model that predicts dark matter candidates, neutrino masses, and lepton flavor violation, with implications for collider signals and nonstandard neutrino interactions.

## Contribution

It introduces a minimal flipped 3-3-1 model with a conserved noncommutative B-L symmetry, linking dark matter stability, neutrino mass generation, and lepton flavor violation.

## Key findings

- The model provides viable dark matter candidates.
- Neutrino masses are generated via type I and II seesaw mechanisms.
- Predicted signals include LHC dilepton and dijet events.

## Abstract

The flipped 3-3-1 model discriminates lepton families instead of the quark ones in normal sense, where the left-handed leptons are in two triplets plus one sextet while the left-handed quarks are in antitriplets, under $SU(3)_L$. We investigate a minimal setup of this model and determine novel consequences of dark matter stability, neutrino mass generation, and lepton flavor violation. Indeed, the model conserves a noncommutative $B-L$ symmetry, which prevents the unwanted vacua and interactions and provides the matter parity and dark matter candidates that along with normal matter form gauge multiplets. The neutrinos obtain suitable masses via a type I and II seesaw mechanism. The nonuniversal couplings of $Z'$ with leptons govern lepton flavor violating processes such as $\mu \rightarrow 3e$, $\mu\rightarrow e \bar{\nu}_\mu\nu_e$, $\mu$-$e$ conversion in nuclei, semileptonic $\tau\rightarrow \mu(e)$ decays, as well as the nonstandard interactions of neutrinos with matter. This $Z'$ may also set the dark matter observables and give rise to the LHC dilepton and dijet signals.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1906.05240/full.md

## References

106 references — full list in the complete paper: https://tomesphere.com/paper/1906.05240/full.md

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Source: https://tomesphere.com/paper/1906.05240