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Full-hierarchy Quiver Theories of Electroweak Symmetry Breaking and Fermion Masses

We consider quiver theories in four dimensions with a large ultra-violet cutoff. These theories require that an ordered set of vacuum expectation values for the link fields develops dynamically and can be obtained from the coarse deconstruction of extra-dimensional theories in an AdS background. These full-hierarchy quiver theories form a large class which include AdS$_5$ models as a limit, but which have a distinctive phenomenology. As an example, in this paper we show that fermions can be introduced in a way that can at the same time generate the fermion mass hierarchy and have flavor violation consistent with experimental bounds, when the mass scale of the color-octect gauge excitation is above $3 {\rm TeV}$. We also show that electroweak precision constraints are satisfied by this mass scale, without the need to extend the gauge sector to protect against custodial violation.

preprint2012arXivOpen access
Gustavo BurdmanNayara FonsecaLeonardo de Lima
hep-phhep-th
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Gustavo BurdmanNayara FonsecaLeonardo de Lima

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