中文

The Simplest, String-Derivable, Supergravity Model and its Experimental Predictions

高能物理 - 唯象学 2009-08-25 v1

摘要

We present the simplest, string-derivable, supergravity model and discuss its experimental consequences. This model is a new string-inspired flipped SU(5)SU(5) which unifies at the string scale MU=1018\GeVM_U=10^{18}\GeV due to the introduction of an additional pair of \r{10},\rb{10} flipped SU(5)SU(5) representations which contain new intermediate scale `gap' particles. We study various model-building issues which should be addressed in string-derived incarnations of this model. We focus our study on the no-scale supergravity mechanism and explore thoroughly the three-dimensional parameter space of the model (mg~,mt,tanβm_{\tilde g},m_t,\tan\beta), thus obtaining several simple relationships among the particle masses, such as: mq~mg~m_{\tilde q}\approx m_{\tilde g}, me~Lmν~0.30mg~m_{\tilde e_L}\approx m_{\tilde\nu}\approx0.30 m_{\tilde g}, me~R0.18mg~m_{\tilde e_R}\approx0.18m_{\tilde g}, and mχ202mχ10mχ1±m_{\chi^0_2}\approx2m_{\chi^0_1}\approx m_{\chi^\pm_1}. In a strict interpretation of the no-scale supergravity scenario we solve for tanβ\tan\beta as a function of mtm_t and mg~m_{\tilde g}, and show that mtm_t determines not only the sign of the Higgs mixing parameter μ\mu but also whether the lightest Higgs boson mass is above or below 100\GeV100\GeV. We also find that throughout the parameter space the neutralino relic abundance is within observational bounds (Ωχh02\lsim0.25\Omega_\chi h^2_0\lsim0.25) and may account for a significant portion of the dark matter in the Universe.

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引用

@article{arxiv.hep-ph/9210280,
  title  = {The Simplest, String-Derivable, Supergravity Model and its Experimental Predictions},
  author = {J. Lopez and D. Nanopoulos and A. Zichichi},
  journal= {arXiv preprint arXiv:hep-ph/9210280},
  year   = {2009}
}

备注

29 pages plus nine figures (not included). CTP-TAMU-68/92, CERN-TH.6667/92