Implication of the ALEPH 30 GeV dimuon resonance at the LHC

Abstract

Recent reanalysis of ALEPH data on Z -> b barb + X seems to indicate an existence of the dimuon excess around 30 GeV with a branching fraction for Z -> b barb mu+ mu- around 1.1 X 10-5. In this letter, we discuss three different types of simplified models for this possible excess. In the first class of models, we assume a new resonance couples to both b barb and mu+ mu-. Within the allowed parameter space for the ALEPH data, this type of models is excluded because of too large Drell-Yan production of dimuon from the b barb collision at the LHC. In the second model, we assume that the 30 GeV excess is a new gauge boson Z' that couples to the SM b and a new vectorlike singlet B quark heavier than Z and not to b barb. Then one can account for the ALEPH data without conflict with the DY constraint. The new vectorlike quark B can be pair produced at the LHC 8/13 TeV by QCD with sigma(BB) ~ O(100-1000) pb, and Bq production rate is sigma(Bq) ~ a few pb which is larger than sigma(Bb) roughly by an order of magnitude. Their signatures at the LHC would be 2b + 4mu, bj + 2mu and 2b + 2mu, respectively, which however might have been excluded already by LHC run I and II data since the multi-muon events have low SM background and are rare at the LHC. In the third model, we consider Z -> Z' phi followed by Z' -> mu+ mu- and phi -> b barb assuming that the Higgs field for Z' mass is also charged under the SM U(1)Y gauge symmetry. In this class of model, we could accommodate the Br(Z -> b barb mu+ mu-) ~ 1.1 X 10-5 if we assume very large U(1)' charge for the U(1)' breaking Higgs field. Finally, we study various kinematic distributions of muons and b jets in all the three models, and find that none of the models we consider in this paper are not compatible with the kinematic distributions extracted from the ALEPH data.