Dilepton bounds on left-right symmetry at the LHC run II and neutrinoless double beta decay

Abstract

In the light of the new 13 TeV dilepton data set with 3.2\, fb-1 integrated luminosity from the ATLAS collaboration, we derive limits on the Z mass in the context of left-right symmetric models and exploit the complementarity with dijet and lljj data, as well as neutrinoless double beta decay. We keep the ratio of the left- and right-handed gauge coupling free in order to take into account different patterns of left-right symmetry breaking. By combining the dielectron and dimuon data we can exclude Z masses below 3 TeV for gR=gL, and for gR 1 we rule out masses up to 4 TeV. Those comprise the strongest direct bounds on the Z mass from left-right models up to date. We show that in the usual plane of right-handed neutrino and charged gauge boson mass, dilepton data can probe a region of parameter space inaccessible to neutrinoless double beta decay and lljj studies. Lastly, through the mass relation between WR and Z we present an indirect bound on the lifetime of neutrinoless double beta decay using dilepton data. Our results prove that the often ignored dilepton data in the context of left-right models actually provide important complementary limits.