Constraints on Extended Neutral Gauge Structures
Abstract
Indirect precision data are used to constrain the masses of possible extra Z^prime bosons and their mixings with the ordinary Z. We study a variety of Z^prime bosons as they appear in E_6 and left-right unification models, the sequential Z boson, and the example of an additional U(1) in a concrete model from heterotic string theory. In all cases the mixings are severely constrained (sin theta < 0.01). The lower mass limits are generally of the order of several hundred GeV and competitive with collider bounds. The exception is the Z_psi boson, whose vector couplings vanish and whose limits are weaker. The results change little when the rho parameter is allowed, which corresponds to a completely arbitrary Higgs sector. On the other hand, in specific models with minimal Higgs structures the limits are generally pushed into the TeV region.
Cite
@article{arxiv.hep-ph/9903476,
title = {Constraints on Extended Neutral Gauge Structures},
author = {Jens Erler and Paul Langacker},
journal= {arXiv preprint arXiv:hep-ph/9903476},
year = {2008}
}
Comments
13 pages of LaTeX2e, 6 figures