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Flavour mixings in flux compactifications

Abstract

A multiplicity of quark-lepton families can naturally arise as zero-modes in flux compactifications. The flavour structure of quark and lepton mass matrices is then determined by the wave function profiles of the zero-modes. We consider a supersymmetric SO(10)×U(1)SO(10)\times U(1) model in six dimensions compactified on the orbifold T2/Z2T^2/{\mathbb Z_2} with Abelian magnetic flux. A bulk 16\mathbf{16}-plet charged under the U(1)U(1) provides the quark-lepton generations whereas two uncharged 10\mathbf{10}-plets yield two Higgs doublets. Bulk anomaly cancellation requires the presence of additional 16\mathbf{16}- and 10\mathbf{10}-plets. The corresponding zero-modes form vectorlike split multiplets that are needed to obtain a successful flavour phenomenology. We analyze the pattern of flavour mixings for the two heaviest families of the Standard Model and discuss possible generalizations to three and more generations.Comment: 28 pages, 3 figures, 3 table

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