N. Arkani-Hamed, H-C Cheng, L. J Hall
Published 1995-12-13, updated 1995-12-14Version 2
Supersymmetric theories involving a spontaneously broken flavor symmetry can solve the flavor-changing problem while having quark and lepton masses derived from both $F$ and $D$ terms. As an example, a theory of leptons is constructed in which holomorphy constrains the electron to be massless at tree level. The electron flavor symmetries are broken by D terms, leading to flavor mixing in the slepton mass matrices, which allows a radiative electron mass to be generated by the gauge interactions of supersymmetric QED. Such a radiative origin for the electron mass can be probed by searches for $\tau \rightarrow e \gamma$, and could be verified or eliminated by measurements of slepton pair production.
Comments: Replacing earlier version, correcting some typographical errors
Journal: Nucl.Phys. B472 (1996) 95-108
Fermion masses and symmetry breaking of a U(2) flavour symmetry
CP Violation, Fermion Masses and Mixings in a Predictive SUSY SO(10) X Delta (48) X U(1) Model with Small tan(beta)
A Systematic SO(10) Operator Analysis for Fermion Masses
