LHC Constraints on a (B-L)3 Gauge Boson

Abstract

In this paper, we explore the constraints that the LHC can place on a massive gauge boson X that predominantly couples to the third generation of fermions. Such a gauge boson arises in scenarios where the B-L of the third generation is gauged. We focus on the mass range 10 ≤ mX 2\,mW, where current constraints are lacking, and develop a dedicated search strategy. For this mass range, we show that b b τ+ τ-, where at least one of the τs decay leptonically is the optimal channel to look for the X at the LHC. The QCD production of b quarks, combined with the cleanliness of the leptons coming from the decay of the τ allow us to detect X gauge boson with couplings of gX (0.005-0.01), for mX < 50 \ GeV, and a coupling of O(0.1) for heavier X gauge boson with 100 \ fb-1 of integrated luminosity. This is about a factor of 2-10 improvement over previous constraints coming from the decay of τ+ τ-. Extrapolating to the full HL-LHC luminosity of 3000 \ fb-1, the bounds on gX can be enhanced by another factor of 2 for mX < 50 \ GeV.