αs and Vcs determination, and CKM unitarity test, from W decays at NNLO

Abstract

The hadronic ( W had) and total ( W tot) widths of the W boson, computed at least at next-to-next-to-leading-order (NNLO) accuracy, are combined to derive a new precise prediction for the hadronic W branching ratio B W had W had/ W tot = 0.682 0.011 par, using the experimental Cabibbo-Kobayashi-Maskawa (CKM) matrix elements, or B W had = 0.6742 0.0002 th 0.0001 par assuming CKM unitarity, with uncertainties dominated by the input parameters of the calculations. Comparing the theoretical predictions and experimental measurements for various W decay observables, the NNLO strong coupling constant at the Z pole, αs(mZ) = 0.117 0.042 exp 0.004 th 0.001 par, as well as the charm-strange CKM element, Vcs = 0.973 0.004 exp 0.002 par, can be extracted under different assumptions. We also show that W decays provide today the most precise test of CKM unitarity for the 5 quarks lighter than m W, Σ u,c,d,s,b |V ij|2 = 1.999 0.008 exp 0.001 th. Perspectives for αs and Vcs extractions from W decays measurements at the LHC and future e+e- colliders are presented.