Z' physics with early LHC data
Abstract
We discuss the prospects for setting limits on or discovering spin-1 bosons using early LHC data at 7 TeV. Our results are based on the narrow width approximation in which the leptonic Drell-Yan boson production cross-section only depends on the boson mass together with two parameters and . We carefully discuss the experimental cuts that should be applied and tabulate the theoretical next-to-next-to-leading order corrections which must be included. Using these results the approach then provides a safe, convenient and unbiased way of comparing experiment to theoretical models which avoids any built-in model dependent assumptions. We apply the method to three classes of perturbative boson benchmark models: models, left-right symmetric models and sequential standard models. We generalise each class of model in terms of {mixing angles which continuously parametrize} linear combinations of pairs of generators and lead to distinctive orbits in the plane. We also apply this method to the strongly coupled four-site benchmark model in which two bosons are predicted. By comparing the experimental limits or discovery bands to the theoretical predictions on the - plane, we show that the LHC at 7 TeV with integrated luminosity of 500 pb will greatly improve on current Tevatron mass limits for the benchmark models. If a is discovered our results show that measurement of the mass and cross-section will provide a powerful discriminator between the benchmark models using this approach.
Cite
@article{arxiv.1010.6058,
title = {Z' physics with early LHC data},
author = {Elena Accomando and Alexander Belyaev and Luca Fedeli and Stephen F. King and Claire Shepherd-Themistocleous},
journal= {arXiv preprint arXiv:1010.6058},
year = {2011}
}
Comments
25 pages, 14 figures, revtex, references added