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Invisible Z-Boson Decays at e+e- Colliders

High Energy Physics - Phenomenology 2008-11-26 v1

Abstract

The measurement of the invisible Z-boson decay width at e+e- colliders can be done "indirectly", by subtracting the Z-boson visible partial widths from the Z-boson total width, or "directly", from the process e+e- -> \gamma \nu \bar{\nu}. Both procedures are sensitive to different types of new physics and provide information about the couplings of the neutrinos to the Z-boson. At present, measurements at LEP and CHARM II are capable of constraining the left-handed Z\nu\nu-coupling, 0.45 <~ g_L <~ 0.5, while the right-handed one is only mildly bounded, |g_R| <= 0.2. We show that measurements at a future e+e- linear collider at different center-of-mass energies, \sqrt{s} = MZ and \sqrt{s}s ~ 170 GeV, would translate into a markedly more precise measurement of the Z\nu\nu-couplings. A statistically significant deviation from Standard Model predictions will point toward different new physics mechanisms, depending on whether the discrepancy appears in the direct or the indirect measurement of the invisible Z-width. We discuss some scenarios which illustrate the ability of different invisible Z-boson decay measurements to constrain new physics beyond the Standard Model.

Keywords

Cite

@article{arxiv.hep-ph/0308053,
  title  = {Invisible Z-Boson Decays at e+e- Colliders},
  author = {Marcela Carena and Andre de Gouvea and Ayres Freitas and Michael Schmitt},
  journal= {arXiv preprint arXiv:hep-ph/0308053},
  year   = {2008}
}