Model independent reach for W-prime bosons at the LHC

Abstract

The semileptonic decay of single-top-quark production provides a strong probe for W-prime bosons at the CERN Large Hadron Collider. We propose an explicit search strategy for pp -> W-prime -> tb -> l nu b j for use at 7 TeV and 8 TeV collider energies, and integrated luminosities ranging from 5 to 20 fb-1. Based on detector-simulated results, we predict that a lower bound can be placed on the mass of right-handed W-primeR with standard model-like couplings of mW-primeR > 1800 GeV at sqrtS=7 TeV with 5 fb-1, and of mW-primeR > 2000 GeV at 8 TeV with 20 fb-1. For left-handed W-primeL bosons we find a lower bound of 1750-1800 GeV at 7 TeV and 5 fb-1 depending on the sign of the interference with standard model single-top-quark production. We present effective coupling gprime dependent limits for accessible masses, and stress the importance of these limits for comparison with theoretical models.