Heavy fermions virtual effects at e^+ e^- colliders
Abstract
We derive the low-energy electroweak effective lagrangian for the case of additional heavy, unmixed, sequential fermions. Present LEP1 data still allow for the presence of a new quark and/or lepton doublet with masses greater than , provided that these multiplets are sufficiently degenerate. Keeping in mind this constraint, we analyse the virtual effects of heavy chiral fermions in process at energies GeV, provided by LEP2 and Next Linear Collider. The effects will be unobservable at LEP2, being smaller than , while more interesting is the case of NLC, where an enhancement factor, due to a delay of unitarity, gives deviations from SM of the order 10-50 per cent, for a wide range of new fermions masses.
Keywords
Cite
@article{arxiv.hep-ph/9601232,
title = {Heavy fermions virtual effects at e^+ e^- colliders},
author = {S. Rigolin},
journal= {arXiv preprint arXiv:hep-ph/9601232},
year = {2007}
}
Comments
21 pages, 8 eps file - needs epsfig.sty