Sterile neutrinos, 0ββ decay and the W-boson mass anomaly in a Flipped SU(5) from F-theory
Abstract
We investigate the low energy properties of an effective local model with flipped SU(5)× U(1) gauge group, constructed within the framework of F-theory. Its origin is traced back to the SO(10) symmetry -- associated with a geometric singularity of the compactification manifold -- broken by an internal flux which is turned on along the seven-brane in the U(1) direction. Topological properties and the choice of flux parameters determine the massless spectrum of the model to be that of the minimal flipped SU(5) supplemented with an extra right-handed electron-type state and its complex conjugate, Ec+ Ec, as well as neutral singlet fields. The subsequent symmetry breaking to the SU(3)× SU(2)× U(1)Y gauge group occurs with a Higgs pair in 10+10 representations of SU(5). Next we proceed to the phenomenological analysis of the resulting effective model and the salient outcomes are: The Ec+ Ec pair acquires a mass of few TeV and as such could solve the gμ-2 discrepancy. Neutrino couplings to extra neutral singlets lead to an inverse seesaw mechanism where an extra light state could be a suitable dark matter candidate. The predictions of the model for the 0ββ decay rate could be tested in near future experiments. There are non-unitarity deviations from lepton mixing matrix (UPMNS), which could in principle explain the new precision measurement of the W-boson mass recently reported by CDF II collaboration.
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