Lepton flavour violating signature in supersymmetric U(1) seesaw models at the LHC

Abstract

We consider a U(1)' supersymmetric seesaw model in which a right-handed sneutrino is a thermal dark matter candidate whose relic density can be in the right range due to its coupling to relatively light Z', the superpartner of the extra gauge boson Z'. Such light Z' can be produced at the LHC through cascade decays of colored superparticles, in particular, stops and sbottoms, and then decay to a right-handed neutrino and a sneutrino dark matter, which leads to lepton flavor violating signals of same/opposite-sign dileptons (or multileptons) accompanied by large missing energy. Taking some benchmark points, we analyze the opposite- and same-sign dilepton signatures and the corresponding flavour difference i.e., (2e-2μ). It is shown that 5σ signal significance can be reached for some benchmark points with very early data of 2 fb-1 integrated luminosity. In addition, 3 and 4 signatures also look promising to check the consistency in the model prediction, and it is possible to reconstruct the Z' mass from jj invariant mass distribution.