CP violation and FCNC in a warped A4 flavor model

Abstract

We recently proposed a spontaneous A4 flavor symmetry breaking scheme implemented in a warped extra dimensional setup to explain the observed pattern of quark and lepton masses and mixings. The quark mixing is induced by bulk A4 flavons mediating "cross-brane" interactions and a "cross-talk" between the quark and neutrino sectors. In this work we explore the phenomenology of RS-A4 and systematically obtain bounds on the Kaluza-Klein (KK) mass scale implied by flavor changing neutral current (FCNC) processes. In particular, we study the constraints arising from Re(ε'/εK), b->sγ, the neutron EDM and Higgs mediated FCNCs, while the tree level contribution to εK through a KK gluon exchange vanishes. We find an overall lower bound on the Kaluza-Klein mass scale MKK > 1.3 TeV from FCNCs, induced by b->sγ, differently from flavor anarchic models. This bound is still weaker than the bound MKK > 4.6 TeV induced by ZbLbL in RS-A4. The little CP problem, related to the largely enhanced new physics contributions to the neutron EDM in flavor anarchic models, is absent. The subtleties of having the Higgs and flavons in the bulk are taken into account and final predictions are derived in the complete three-generation case.