Prospects of measuring the CKM matrix element |Vts| at the LHC

Abstract

We study the prospects of measuring the CKM matrix element Vts at the LHC with the top quarks produced in the processes p p ttX and p p t/t X, and the subsequent decays t W+s and t W- s. We insist on tagging the W leptonically, W ( =e, μ, τ), and analyse the anticipated jet profiles in the signal process t W s and the dominant background from the decay t W b. To that end, we analyse the V0 (K0 and ) distributions in the s- and b-quark jets concentrating on the energy and transverse momentum distributions of these particles. The V0s emanating from the t W b branch have displaced decay vertexes from the interaction point due to the weak decays b c s and the b-quark jets are rich in charged leptons. Hence, the absence of secondary vertexes and of the energetic charged leptons in the jet provide additional (b-jet vs. s-jet) discrimination in top quark decays. These distributions are used to train a boosted decision tree (BDT). Using the BDT classifier, and a variant of it called BDTD, which makes use of decorrelated variables, we calculate the BDT(D)-response functions corresponding to the signal (t W s) and background (t W b). Detailed simulations undertaken by us with the Monte Carlo generator PYTHIA are used to estimate the background rejection versus signal efficiency for three representative LHC energies s=7 TeV, 10 TeV and 14 TeV. We argue that a benchmark with 10\% signal (t W s ) efficiency and a background (t W b) rejection by a factor 103 (required due to the anticipated value of the ratio Vts2/ Vtb 2 1.6 × 10-3) can be achieved at the LHC@14 TeV with an integrated luminosity of 10 fb-1.