Multi-scale improved predictions for pp ttW+ +X

Abstract

We compare standard fixed-order NLO QCD predictions for the full off-shell pp e+νe\, μ-νμ\, τ+ντ\, bb \, (j) + X processes in the multi-lepton decay channel with the results obtained using the MiNLO approach. The MiNLO method, now also implemented in the Helac-NLO framework, provides a dynamic determination of the renormalization and factorization scale settings by identifying the most likely branching histories of the additional jets through an inverse kT-clustering algorithm. The inclusion of Sudakov form factors accounts for the large logarithms that arise in the presence of widely separated scales. We perform a dedicated comparison of the two approaches at both the integrated and differential (fiducial) cross-section levels for the LHC Run II energy of s=13 TeV. Finally, we present the merging of the full off-shell predictions for pp e+νe\, μ-νμ\, τ+ντ\, bb \, + X, pp e+νe\, μ-νμ\, τ+ντ\, bb \, j +X and pp e+νe\, μ-νμ\, τ+ντ\, bb \, jj, with the aim of improving the description of the underlying pp e+νe\, μ-νμ\, τ+ντ\, bb + X process.

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