Light stop decays into $W b \tildeÏ_1^0$ near the kinematic threshold
arXiv:1502.05935
Abstract
We investigate the decays of the light stop in scenarios with the lightest neutralino $\tildeÏ_1^0$ being the lightest supersymmetric particle, including flavour-violating (FV) effects. We analyse the region where the three-body decay $\tilde{t}_1\to W b \tildeÏ_1^0$ is kinematically allowed and provide a proper description of the transition region between the three-body decay and the four-body decay $\tilde{t}_1 \to\tildeÏ_1^0 b f \bar{f}'$. The improved treatment has been implemented in the Fortran package {\tt SUSY-HIT} and is used for the analysis of this region. A scan over the parameter range including all relevant experimental constraints reveals that the FV two-body decay into charm and $\tildeÏ_1^0$ can be as important as the three-, respectively, four-body decays if not dominant and therefore should be taken into account in order to complete the experimental searches for the light stop.
7 pages, 5 figures; matches journal version; appendix with analytic formula for three-body decay width added