Abstract
The flavor-changing neutral current (FCNC) problem at tree-level is a very critical defect of the two Higgs doublet extension of standard model (SM). In this article, a two-Higgs-doublet model (2HDM) in which such defects do not exist at all is to be demonstrated. The general pattern of matrix pairs which can be diagonalized simul-taneously by a same unitary transformation is proposed without extra constraints like symmetries or zeros in M matrices. Only an assumption of the hermiticity of mass matrices is employed in the derivation. With this assumption, number of parameters in the mass matrix of a specific fermion type is reduced from eighteen down to five. Eigenvalues and eigenvectors are analytically derived and it is surprising that unitary transformation matrix thus derived depends on only two parameters. It is a very general and elegant way to solve the tree-level FCNC problem radically and it includes previous similar models as special cases with specific parameter values.
Highlights
Copyright c 2019 by author(s) and Scientific extra constraints like symmetries or zeros in M matrices
Besides failing to solve the CP problem, this extra Higgs doublet brought in an extra problem of flavor-changing neutral currents (FCNCs) at tree level. This problem arises if those two components M1 and M2 of the quark mass matrix M = M1 + M2 corresponding to Higgs doublets Φ1 and Φ2 respectively were not diagonalized simultaneously by a same unitary transformation U
In 2HDMs mentioned above, except for the one allows for tree-level FCNCs, assumptions or forbiddance were employed to simplify the patterns of fermion mass matrices
Summary
Copyright c 2019 by author(s) and Scientific extra constraints like symmetries or zeros in M matrices. A Two-Higgs-Doublet Model without Flavor-Changing Neutral Currents at Tree-Level. The flavor-changing neutral current (FCNC) problem at tree-level is a very critical defect of the two Higgs doublet extension of standard model (SM). Published: January 23, 2019 general pattern of matrix pairs which can be diagonalized simultaneously by a same unitary transformation is proposed without
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