Top Squarks and Bottom Squarks in the MSSM with Complex Parameters
Abstract
We present a phenomenological study of top squarks (~t1,2) and bottom squarks (~b1,2) in the Minimal Supersymmetric Standard Model (MSSM) with complex parameters At, Ab, μ and M1. In particular we focus on the CP phase dependence of the branching ratios of (~t1,2) and (~b1,2) decays. We give the formulae of the two-body decay widths and present numerical results. We find that the effect of the phases on the (~t1,2) and (~b1,2) decays can be quite significant in a large region of the MSSM parameter space. This could have important implications for (~t1,2) and (~b1,2) searches and the MSSM parameter determination in future collider experiments. We have also estimated the accuracy expected in the determination of the parameters of ~ti and ~bi by a global fit of the measured masses, decay branching ratios and production cross sections at e+ e- linear colliders with polarized beams. Analysing two scenarios, we find that the fundamental parameters apart from At and Ab can be determined with errors of 1% to 2%, assuming an integrated luminosity of 1 ab-1 and a sufficiently large c.m.s. energy to produce also the heavier ~t2 and ~b2 states. The parameter At can be determined with an error of 2 - 3%, whereas the error on Ab is likely to be of the order of 50%.
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