Abstract
We consider proton decay and g_mu - 2 in flipped SU(5) GUT models. We first study scenarios in which the soft supersymmetry-breaking parameters are constrained to be universal at some high scale M_{in} above the standard GUT scale where the QCD and electroweak SU(2) couplings unify. In this case the proton lifetime is typically > rsim 10^{36} years, too long to be detected in the foreseeable future, and the supersymmetric contribution to g_mu - 2 is too small to contribute significantly to resolving the discrepancy between the experimental measurement and data-driven calculations within the Standard Model. However, we identify a region of the constrained flipped SU(5) parameter space with large couplings between the 10- and 5-dimensional GUT Higgs representations where p rightarrow e^+ pi ^0 decay may be detectable in the Hyper-Kamiokande experiment now under construction, though the contribution to g_mu -2 is still small. A substantial contribution to g_mu - 2 is possible, however, if the universality constraints on the soft supersymmetry-breaking masses are relaxed. We find a ‘quadrifecta’ region where observable proton decay co-exists with a (partial) supersymmetric resolution of the g_mu - 2 discrepancy and acceptable values of m_h and the relic LSP density.
Highlights
We first study scenarios in which the soft supersymmetry-breaking parameters are constrained to be universal at some high scale Min above the standard Grand Unified Theory (GUT) scale where the QCD and electroweak SU(2) couplings unify
We have considered in this paper various aspects of the phenomenology of supersymmetric flipped SU(5) GUTs, focusing on predictions for proton decay and gμ − 2
If the soft supersymmetry-breaking parameters are constrained to be universal at some high scale Min above
Summary
Following the formulation of flipped SU(5) and its derivation from string theory, there have been many phenomenological studies of the model. The discrepancy is completely resolved within non-minimal flipped SU(5) models [8,36] even if the data-driven SM calculation [25,26,27,28,29,30,31,32,33] is adopted Motivated by this encouraging backdrop, in this paper we pursue further studies of proton decay in supersymmetric flipped SU(5), which we link to an investigation of the muon anomalous magnetic moment, gμ − 2. The decay p → e+π 0 may be accessible if the couplings λ4,5 between the GUT Higgs fields in the 10 and 10 representations and the SM Higgs fields in the 5 and 5 representations are both relatively large, λ4,5 ∼ 0.5 Even in this case the supersymmetric contribution to gμ − 2 is far smaller than the discrepancy between the experimental value and that from data-driven or lattice theoretical calculations in the SM [34].
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