We present precise predictions for the processes e+ e- -> WW -> 4f(gamma) at LEP2 and future Linear-Collider (LC) energies obtained with the Monte Carlo generator RacoonWW. The program RacoonWW includes the complete O(alpha) electroweak radiative corrections to e+ e- -> WW -> 4f in the double-pole approximation (DPA). While the virtual corrections are treated in DPA, the calculation of the bremsstrahlung corrections is based on the full lowest-order matrix elements to the processes e+ e- -> 4f+gamma. This asymmetric treatment of virtual and real photons requires a careful matching of the arising infrared and collinear singularities. We also take into account higher-order initial-state photon radiation via the structure-function method. Here, we briefly describe the RacoonWW approach, give numerical results for the total W-pair production cross sections, confront them with LEP2 data, and study the impact of the radiative corrections on angular and W-invariant-mass distributions at LEP2 and LC energies.
@article{arxiv.hep-ph/0007245,
title = {Electroweak Precision Physics at e+ e- Colliders with RacoonWW},
author = {A. Denner and S. Dittmaier and M. Roth and D. Wackeroth},
journal= {arXiv preprint arXiv:hep-ph/0007245},
year = {2008}
}
Comments
12 pages, 13 postscript figures, to appear in the Proceedings of the 22nd annual MRST Conference on Theoretical High Energy Physics (MRST 2000), Rochester, New York, May 8-9, 2000