Search for tZ' associated production induced by tcZ' couplings at the LHC

Abstract

The P'5 and RK anomalies, recently observed by the LHCb collaboration in B K(*) transitions, may indicate the existence of a new Z' boson, which may arise from gauged Lμ - Lτ symmetry. Flavor-changing neutral current Z' couplings, such as tcZ', can be induced by the presence of extra vector-like quarks. In this paper we study the LHC signatures of the induced right-handed tcZ' coupling that is inspired by, but not directly linked to, the B K(*) anomalies. The specific processes studied are cg tZ' and its conjugate process each followed by Z'μ+μ-. By constructing an effective theory for the tcZ' coupling, we first explore model-independently the discovery potential of such a Z' at the 14 TeV LHC with 300 and 3000 fb-1 integrated luminosities. We then reinterpret the model-independent results within the gauged Lμ - Lτ model. In connection with tcZ', the model also implies the existence of a flavor-conserving ccZ' coupling, which can drive the c c Z' μ+μ- process. Our study shows that existing LHC results for dimuon resonance searches already constrain the ccZ' coupling, and that the Z' can be discovered in either or both of the cg tZ' and c c Z' processes. We further discuss the sensitivity to the left-handed tcZ' coupling and find that the coupling values favored by the B K(*) anomalies lie slightly below the LHC discovery reach even with 3000 fb-1.