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EUROPEAN PHYSICAL JOURNAL C 78, 804 (2018)

ISSN: 1434-6044, SCI

The first Δ(27) flavor 3-3-1 model with low scale seesaw mechanism

A. E. Cárcamo Hernández, H. N. Long, V. V. Vien

We propose a viable model based on the SU(3)_C × SU(3)_L ×U(1)_X gauge group, augmented by the U(1)_Lg global lepton number symmetry and the Δ(27) × Z_3 × Z_16 discrete group, capable of explaining the Standard Model (SM) fermion masses and mixings, and having a low scale seesaw mechanism which can be tested at the LHC. In addition the model provides an explanation for the SM fermion masses and mixings. In the proposed model, small masses for the light active neutrinos are generated by an inverse seesaw mechanism caused by non renormalizable Yukawa operators and mediated by three very light Majorana neutrinos and the observed hierarchy of the SM fermion masses and mixing angles is produced by the spontaneous breaking of the Δ(27) × Z_3 × Z_16 symmetry at very large energy scale. This neutrino mass generation mechanism is not presented in our previous 3-3-1 models with Δ(27) group (Vien et al. in Nucl Phys B 913:792, 2016, Cárcamo Hernández et al. in Eur Phys J C 76(5):242, 2016), where the masses of the light active neutrinos arise from a combination of type I and type II seesaw mechanisms (Vien et al. Nucl. Phys. B 913:792, 2016) as well as from a double seesaw mechanism (Hernández et al. in Eur Phys J C 76(5):242, 2016). Thus, this work corresponds to the first implementation of the Δ(27) symmetry in a 3-3-1 model with low scale seesaw mechanism.


URL: https://doi.org/10.1140/epjc/s10052-018-6284-0

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