Candidates for dark matter in the ${SU}(3)_C {SU}(3)_L {U}(1)_N$ models

Details Candidates for dark matter in the ${SU}(3)_C {SU}(3)_L {U}(1)_N$ models Candidates for dark matter in the ${SU}(3)_C {SU}(3)_L {U}(1)_N$ models

2006-11-21

arxiv.org/abs/hep-ph/0611276v1

published in Search for the Higgs Boson, Nova Publisher, 2006

Physics

High Energy Physics

High Energy Physics - Phenomenology

22 pages

Scientific paper

It has recently been pointed out that the 511 keV emission line detected by INTEGRAL/SPI from the bulge of our galaxy could be explained by annihilations of light dark matter particles into $e^+ e^-$. We present the possibility that dark matter could be made of scalar candidates, namely, of the Higgs bosons in the models based on ${SU}(3)_C\otimes {SU}(3)_L \otimes {U}(1)_N$ (3-3-1) gauge group. These particles are singlet of the ${SU}(2)_L \otimes {U}(1)_Y$ group, so they do not interact with the ordinary particles, exept the Higgs boson in the standard model. The Spergel-Steinhardt condition for self-interacting dark matter gives a bound on the mass of the candidates to be a few MeVs. Besides the scalar candidates, which exist in both non-SUSY and SUSY 3-3-1 models with right-handed neutrinos, the spin $\fr 1 2$ candidate exists in a variant 3-3-1 version with exotic neutral lepton. In contrast to the singlet models, where an extra symmetry must be imposed to account the stability of the dark matter, here the decay of the candidates is automatically forbidden in all orders of perturbative expansion. This is because of the following feature: these scalars are singlets, i.e., in bottom of the Higgs triplet. Therefore, the standard model fermions and the standard gauge bosons cannot couple with them.

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