Ratios of W and Z cross sections at large boson pT as a constraint on PDFs and background to new physics

Abstract

We motivate a measurement of various ratios of W and Z cross sections at the Large Hadron Collider (LHC) at large values of the boson transverse momentum (pT MW,Z). We study the dependence of predictions for these cross-section ratios on the multiplicity of associated jets, the boson pT and the LHC centre-of-mass energy. We present the flavour decomposition of the initial-state partons and an evaluation of the theoretical uncertainties. We show that the W+/W- ratio is sensitive to the up-quark to down-quark ratio of parton distribution functions (PDFs), while other theoretical uncertainties are negligible, meaning that a precise measurement of the W+/W- ratio at large boson pT values could constrain the PDFs at larger momentum fractions x than the usual inclusive W charge asymmetry. The W/Z ratio is insensitive to PDFs and most other theoretical uncertainties, other than possibly electroweak corrections, and a precise measurement will therefore be useful in validating theoretical predictions needed in data-driven methods, such as using W()+jets events to estimate the Z()+jets background in searches for new physics at the LHC. The differential W and Z cross sections themselves, dσ/ dpT, have the potential to constrain the gluon distribution, provided that theoretical uncertainties from higher-order QCD and electroweak corrections are brought under control, such as by inclusion of anticipated next-to-next-to-leading order QCD corrections.