A. C. B. Machado scite author profile

Abstract:The recent detection of the cosmic microwave background polarimeter experiment BICEP2 of tensor fluctuations in the B-mode power spectrum basically excludes all plausible axion models where its decay constant is above 10 13 GeV. Moreover, there are strong theoretical, astrophysical, and cosmological motivations for models involving, in addition to the axion, also axion-like particles (ALPs), with decay constants in the intermediate scale range, between 10 9 GeV and 10 13 GeV. Here, we present a general analysis of models with an axion and further ALPs and derive bounds on the relative size of the axion and ALP photon (and electron) coupling. We discuss what we can learn from measurements of the axion and ALP photon couplings about the fundamental parameters of the underlying ultraviolet completion of the theory. For the latter we consider extensions of the Standard Model in which the axion and the ALP(s) appear as pseudo Nambu-Goldstone bosons from the breaking of global chiral U(1) (Peccei-Quinn (PQ)) symmetries, occurring accidentally as low energy remnants from exact discrete symmetries. In such models, the axion and the further ALP are protected from disastrous explicit symmetry breaking effects due to Planck-scale suppressed operators. The scenarios considered exploit heavy right handed neutrinos getting their mass via PQ symmetry breaking and thus explain the small mass of the active neutrinos via a seesaw relation between the electroweak and an intermediate PQ symmetry breaking scale. For a number of explicit models, we determine the parameters of the low-energy effective field theory describing the axion, the ALPs, and JHEP06 (2014)037 their interactions with photons and electrons, in terms of the input parameters, in particular the PQ symmetry breaking scales. We show that these models can accommodate simultaneously an axion dark matter candidate, an ALP explaining the anomalous transparency of the universe for γ-rays, and an ALP explaining the recently reported 3.55 keV gamma line from galaxies and clusters of galaxies, if the respective decay constants are of intermediate scale. Moreover, they do not suffer severely from the domain wall problem.

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Flavor-changing neutral currents in the minimal 3-3-1 model revisited

Machado

Montero

Pleitez

2013

Phys. Rev. D

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We study a few ∆F = 2 and ∆F = 1 flavor changing neutral current processes in the minimal 3-3-1 model by considering, besides the neutral vector bosons Z ′ , the effects due to one CP -even and one CP -odd scalars. We find that there are processes in which the interference among all the neutral bosons is constructive or destructive, and in others the interference is negligible. We first obtain numerical values for all the unitary matrices that rotate the left-and right-handed quarks and give the correct mass of all the quarks in each charge sector and the Cabibbo-KobayashiMaskawa (CKM) mixing matrix.

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Schizophrenic active neutrinos and exotic sterile neutrinos

Machado

Pleitez

2011

Physics Letters B

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We implement a schizophrenic scenario for the active neutrinos in a model in which there are also exotic right-handed neutrinos making a model with a local U(1)_(B-L) anomaly free. Two of right-handed neutrinos carry B-L=-4 while the third one carries B-L=5.Comment: I, A. C. B. Machado, apologize for having submitted the wrong file before. This is in fact the version to be published in Physics Letters B 698 (2011) pp. 128-13

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Minimal 3-3-1 model with a spectator sextet

2015

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We consider the minimal 3-3-1 model with a heavy scalar sextet and realize, at the tree level, an effective dimension-five interaction that contributes to the mass of the charged leptons. In this case the charged leptons masses arise from a sort of type-II seesawlike mechanism while the neutrino masses are generated by a type-I mechanism. We also show that the parameters giving the correct lepton masses also accommodate the Pontecorvo-Maki-Nakawaga-Sakata matrix. We give the scalar mass spectra of the model and analyze under which conditions the fields in the scalar sextet are heavy even with small or zero vacuum expectation values. We also show the conditions under which it is possible to have a stable (bounded from below) potential and also a global minimum.

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A model with two inert scalar doublets

Machado

Pleitez

2016

Annals of Physics

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We consider an extension of the standard model (SM) with three SU (2) scalar doublets and a discrete S 3 ⊗ Z 2 symmetries. The irreducible representation of S 3 has a singlet and a doublet, and here we show that the singlet corresponds to the SM-like Higgs and the two additional SU (2) doublets forming a S 3 doublet are inert. In general, in a three scalar doublet model, with or without S 3 symmetry, the diagonalization of the mass matrices implies arbitrary unitary matrices.However, we show that in our model these matrices are of the tri-bimaximal type. We also analyzed the scalar mass spectra and the conditions for the scalar potential is bounded from below at the tree level. We also discuss some phenomenological consequences of the model.

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A. C. B. Machado

The quest for an intermediate-scale accidental axion and further ALPs

Flavor-changing neutral currents in the minimal 3-3-1 model revisited

Schizophrenic active neutrinos and exotic sterile neutrinos

Minimal 3-3-1 model with a spectator sextet

A model with two inert scalar doublets

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