Next-to-leading order spurion effects in a minimal lepton flavor deconstruction model induce observable charged lepton flavor violation, lepton flavor universality violation, and electric dipole moments at multi-10 TeV scales.
Kahler corrections and softly broken family symmetries
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abstract
Spontaneously broken family symmetry provides a promising origin for the observed quark and lepton mass and mixing angle structure. In a supersymmetric theory such structure comes from a combination of the contributions from the superpotential and the K\"{a}hler potential. The superpotential effects have been widely studied but relatively little attention has been given to the effects of the K\"{a}hler sector. In this paper we develop techniques to simplify the analysis of such K\"{a}hler effects. Using them we show that in the class of theories with an hierarchical structure for the Yukawa couplings the K\"{a}hler corrections to both the masses and mixing angles are subdominant. This is true even in cases that texture zeros are filled in by the terms coming from the K\"{a}hler potential.
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Anatomy and Phenomenology of Minimal Flavor Deconstruction in the Lepton Sector
Next-to-leading order spurion effects in a minimal lepton flavor deconstruction model induce observable charged lepton flavor violation, lepton flavor universality violation, and electric dipole moments at multi-10 TeV scales.