1-loop SQCD corrections to the decay of top-squarks to charm and neutralino in the generic MSSM

Abstract

In this article we calculate the 1-loop supersymmetric QCD (SQCD) corrections to the decay u1 c 01 in the MSSM with generic flavour structure. This decay mode is phenomenologically important if the mass difference between the lightest squark u1 (which is assumed to be mainly stop-like) and the neutralino LSP 01 is smaller than the top mass. In such a scenario u1 t 01 is kinematically not allowed and searches for u1 W b 01 and u1 c 01 are performed. A large decay rate for u1 c 01 can weaken the LHC bounds from u1 W b 01 which are usually obtained under the assumption Br[ u1 W b 01]=100\%. We find the SQCD corrections enhance [ u1 c 01] by approximately 10\% if the flavour-violation originates from bilinear terms. If flavour-violation originates from trilinear terms, the effect can be 50\% or more, depending on the sign of At. We note that connecting a theory of SUSY breaking to LHC observables, the shift from the DR to the on-shell mass is numerically very important for light stop decays.