Dark matter, Z, vector-like quark at the LHC and b s μμ anomaly

Abstract

Combining the b sμ+μ- anomaly and dark matter observables, we study the capability of LHC to test dark matter, Z, and vector-like quark. We focus on a local U(1)Lμ-Lτ model with a vector-like SU(2)L doublet quark Q and a complex singlet scalar whose lightest component XI is a candidate of dark matter. After imposing relevant constraints, we find that the b sμ+μ- anomaly and the relic abundance of dark matter favor mXI< 350 GeV and mZ< 450 GeV for mQ< 2 TeV and mXR< 2 TeV (the heavy partner of mXI). The current searches for jets and missing transverse momentum at the LHC sizably reduce the mass ranges of the vector-like quark, and mQ is required to be larger than 1.7 TeV. Finally, we discuss the possibility of probing these new particles at the high luminosity LHC via the QCD process pp DD or pp UU followed by the decay D s (b) Z'XI or U u (c) Z' XI and then Z'μ+μ-. Taking a benchmark point of mQ=1.93 TeV, mZ=170 GeV, and mXI= 145 GeV, we perform a detailed Monte Carlo simulation, and find that such benchmark point can be accessible at the 14 TeV LHC with an integrated luminosity 3000 fb-1.