Abstract
We present a framework to generate the hierarchical flavor structure of Standard Model quarks and leptons from loops of superpartners. The simplest model consists of the minimal supersymmetric standard model with tree level Yukawa couplings for the third generation only and anarchic squark and slepton mass matrices. Agreement with constraints from low energy flavor observables, in particular Kaon mixing, is obtained for supersymmetric particles with masses at the PeV scale or above. In our framework both the second and the first generation fermion masses are generated at 1-loop. Despite this, a novel mechanism generates a hierarchy among the first and second generations without imposing a symmetry or small parameters. A second-to-first generation mass ratio of order 100 is typical. The minimal supersymmetric standard model thus includes all the necessary ingredients to realize a fermion spectrum that is qualitatively similar to observation, with hierarchical masses and mixing. The minimal framework produces only a few quantitative discrepancies with observation, most notably the muon mass is too low. We discuss simple modifications which resolve this and also investigate the compatibility of our model with gauge and Yukawa coupling Unification.
Highlights
In this work we will consider a class of models that attempt to explain the flavor structure of fermion masses and mixings
The minimal model we will consider is remarkably simple - it is a scaled up version of the minimal supersymmetric standard model (MSSM), with supersymmetry broken at or above a PeV and with tree level Yukawas just for the third generation
Given the anarchic squark and slepton masses, the discussed setups are subject to strong constraints from low energy flavor observables
Summary
We will begin by considering the most minimal setup to demonstrate the mechanism for radiative generation of flavor by sfermions. This simple setup will yield a fermion spectrum that is qualitatively similar to that observed in the SM, that of a hierarchical spectrum of fermion masses. We will asses its success qualitatively in the two section. This minimal setup has been considered briefly in the context of TeV scale SUSY [20, 21], only to be dismissed because of excessive flavor changing effects and/or the lack of naturalness. Giving-up on naturalness frees us to consider this model and some of its virtues in greater detail
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