Searching for Flavored Gauge Bosons

Abstract

Standard Model may allow an extended gauge sector with anomaly-free flavored gauge symmetries, such as Li - Lj, Bi - Lj, and B - 3Li, where i,j=1,2,3 are flavor indices. We investigate phenomenological implications of the new flavored gauge boson Z in the above three classes of gauge symmetries. Focusing on the gauge boson mass above 5 GeV, we use the lepton universality test in the Z and τ/μ decays, LEP searches, LHC searches, neutrino trident production bound, and LHC Z→ 4μ searches to put constraints on the g-MZ plane. When L1 is involved, the LEP bounds on the e-e+ → -+ processes give the most stringent bounds, while the LHC bound becomes the strongest constraints in the large MZ region when Bi is involved. The bound from Z→ 4μ productions, which is applicable for L2-involved scenarios, provides stringent bounds in the small MZ region. One exception is the B-3L2 scenario, in which case only a small region is favored due to the lepton universality.