Monodromic T-Branes And The SO(10)GUT

Abstract

T-branes, which are non-Abelian bound states of branes, were first introduced by Cecotti, Cordova, Heckman and Vafa Cecotti:2010bp. They are the refined version of the monodromic branes that feature in the phenomenological F-theory models. Here, we will be interested in the T-brane corresponding to the Z3 monodromy which is used to break the E8 gauge group to obtain the SO(10)GUT. This extends the results of Cecotti:2010bp to the case of Z3 monodromic T-branes used to break the E8 gauge group to SO(10)× SU(3)× U(1) and compute the Yukawa coupling with the help of the residue formula. We conclude that the Yukawa coupling, 10H· 16M· 16M, is non-zero for E7, in complete agreement with Cecotti:2010bp, but is zero for E8. Furthermore, the case of Z2 monodromic T-branes used to break the E8 gauge group to E6× SU(2)× U(1), nothing interesting can be deduced by evaluating the Yukawa coupling 27H· 27M· 27M which is dependent on whether the MSSM fermion and electroweak Higgs fields can be included in the same 27 multiplet of a three-family E6 GUT or assign the Higgs fields to a different 27H multiplet where only the Higgs doublets and singlets obtain the electroweak scale energy.