English

A string no-scale supergravity model and its experimental consequences

High Energy Physics - Phenomenology 2016-09-01 v1 High Energy Physics - Theory

Abstract

We propose a string-derived model based on the gauge group SU(5)×U(1)SU(5)\times U(1) which satisfies the stringent constraints from no-scale supergravity, allows gauge coupling unification at the string scale, and entails previously unexplored correlations among various sectors of the model. All supersymmetric observables are given in terms of a single mass parameter with self-consistency of the model determining the rest, including tanβ=2.22.3\tan\beta=2.2-2.3 and mt175\GeVm_t\approx175\GeV. A small non-universality of the scalar masses at the string scale produces a downward shift in the right-handed slepton masses at the electroweak scale, such that for m1/2\gsim180\GeVm_{1/2}\gsim180\GeV these particles become lighter than the lightest neutralino. This cutoff in the parameter space entails the imminent discovery of charginos at the Tevatron via trilepton events (mχ1±<90\GeVm_{\chi^\pm_1}<90\GeV). Also, the lightest Higgs boson (mh<90\GeVm_h<90\GeV), the lightest chargino, and the right-handed sleptons (m~R<50\GeVm_{\tilde\ell_R}<50\GeV) should be readily observable at LEPII. We also discuss the model predictions for B(bsγ)B(b\to s\gamma), (g2)μ(g-2)_\mu, RbR_b, and the prospects for direct neutralino dark matter detection.

Keywords

Cite

@article{arxiv.hep-ph/9502414,
  title  = {A string no-scale supergravity model and its experimental consequences},
  author = {J. Lopez and D. Nanopoulos and A. Zichichi},
  journal= {arXiv preprint arXiv:hep-ph/9502414},
  year   = {2016}
}

Comments

10 pages, LaTeX, 3 figures (included)