arXiv:1909.05853 Abstract | arXiv Analytics

arXiv:1909.05853 [hep-ph]Abstract References Reviews Resources

Baryon Number, Lepton Number, and Operator Dimension in the SMEFT with Flavor Symmetries

Published 2019-09-12Version 1

For a large set of flavor symmetries, the lowest-dimensional baryon- or lepton-number violating operators in the Standard Model effective field theory (SMEFT) with flavor symmetry are of mass dimension 9. As a consequence, baryon- and lepton-number violating processes are further suppressed with the introduction of flavor symmetries, e.g., the allowed scale associated with proton decay is typically lowered to $10^5$ GeV, which is significantly lower than the GUT scale. To illustrate these features, we discuss Minimal Flavor Violation for the Standard Model augmented by sterile neutrinos.

Comments: 6 pages, 2 figures

Categories: hep-ph

Keywords: flavor symmetry, baryon number, operator dimension, lepton number, standard model effective field theory

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arXiv:1909.05853 [hep-ph]Abstract References Reviews Resources

Baryon Number, Lepton Number, and Operator Dimension in the SMEFT with Flavor Symmetries

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arXiv:1909.05853 [hep-ph]AbstractReferencesReviewsResources

Baryon Number, Lepton Number, and Operator Dimension in the SMEFT with Flavor Symmetries

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arXiv:1909.05853 [hep-ph]Abstract References Reviews Resources