We present novel predictions for the production of W+W− pairs in hadron collisions that are next-to-next-to-leading order accurate and consistently matched to a parton shower (NNLOPS). All diagrams that lead to the process pp→ e−ν¯ eμ+νμ+ X are taken into account, thereby including spin correlations and off-shell effects. For the first time full NNLOPS accuracy is achieved for a 2 → 4 process. We find good agreement, at the 1σ level, with the W+W− rates measured by ATLAS and CMS. The importance of NNLOPS predictions is evident from differential distributions sensitive to soft-gluon effects and from the large impact (10% and more) of including next-to-next-to-leading order corrections on top of MiNLO. We define a charge asymmetry for the W bosons and the leptons in W+W− production at the LHC, which is sensitive to the W polarizations and hence can be used as a probe of new physics.
Re, E., Wiesemann, M., Zanderighi, G. (2018). NNLOPS accurate predictions for W+ W- production. JOURNAL OF HIGH ENERGY PHYSICS, 2018(12) [10.1007/JHEP12(2018)121].
NNLOPS accurate predictions for W+ W- production
RE E;
2018
Abstract
We present novel predictions for the production of W+W− pairs in hadron collisions that are next-to-next-to-leading order accurate and consistently matched to a parton shower (NNLOPS). All diagrams that lead to the process pp→ e−ν¯ eμ+νμ+ X are taken into account, thereby including spin correlations and off-shell effects. For the first time full NNLOPS accuracy is achieved for a 2 → 4 process. We find good agreement, at the 1σ level, with the W+W− rates measured by ATLAS and CMS. The importance of NNLOPS predictions is evident from differential distributions sensitive to soft-gluon effects and from the large impact (10% and more) of including next-to-next-to-leading order corrections on top of MiNLO. We define a charge asymmetry for the W bosons and the leptons in W+W− production at the LHC, which is sensitive to the W polarizations and hence can be used as a probe of new physics.
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