A Combination of Preliminary Electroweak Measurements and Constraints on the Standard Model

TL;DR

This paper combines electroweak measurements from LEP experiments above the Z-pole to test the Standard Model, updating previous results and deriving constraints on its parameters.

Contribution

It provides a comprehensive combination of LEP electroweak results, including new measurements and analyses, to refine Standard Model constraints and compare with other experiments.

Findings

Updated W mass and width measurements

Constraints on electroweak parameters consistent with the Standard Model

Comparison with Tevatron results supports the Standard Model

Abstract

This note presents a combination of published and preliminary electroweak results from the four LEP collaborations ALEPH, DELPHI, L3 and OPAL based on electron-positron collision data taken at centre-of-mass energies above the Z-pole, $130 \GeV$ to $209 \GeV$ (\LEPII), as prepared for the 2005 summer conferences. Averages are derived for di-fermion cross sections and forward-backward asymmetries, photon-pair, W-pair, Z-pair, single-W and single-Z cross sections, electroweak gauge boson couplings, W mass and width and W decay branching ratios. An investigation of the interference of photon and Z-boson exchange is presented, and colour reconnection and Bose-Einstein correlation analyses in W-pair production are combined. The main changes with respect to the experimental results presented in 2004 are updates to some 4-fermion cross sections, final results on BE correlations and a new preliminary combination of the mass and width of the W boson. Including the precision electroweak measurements performed at the Z pole published recently, the results are compared with precise electroweak measurements from other experiments, notably CDF and D{\O}at the Tevatron. Constraints on the input parameters of the Standard Model are derived from the results obtained in high-$Q^2$ interactions, and used to predict results in low-$Q^2$ experiments, such as atomic parity violation, Moller scattering, and neutrino-nucleon scattering.