Flavour violating bosonic squark decays at LHC

Abstract

Quark flavour conserving (QFC) fermionic squark decays, such as ~t1,2 -> t neutralinoi, are usually assumed in squark search analyses. Here we study quark flavour violating (QFV) bosonic squark decays, such as ~u2 -> ~u1 h0/Z0, where the mass eigenstates ~u1,2 are mixtures of scharm and stop quarks. We show that the branching ratios of such QFV decays can be very large due to sizable ~cR - ~tR/L and ~tR - ~tL mixing effects despite the very strong constraints on the QFV parameters from B meson data. This can result in remarkable QFV signatures with significant rates at LHC (14 TeV), such as pp -> gluino gluino X -> t c barc barc h0/Z0 missing-ET X and pp -> gluino gluino X -> t t barc barc h0/Z0 missing-ET X. The QFV bosonic squark decays can play an important role in the squark and gluino searches at LHC (14 TeV).