| Article | |
| Report number | arXiv:hep-ph/9807479 ; IEM-FT-177-98 ; UPR-811-T ; CERN-TH-98-243 |
| Title | Physics Implications of Flat Directions in Free Fermionic Superstring Models; 1, Mass Spectrum and Couplings |
| Author(s) | Cleaver, G (Dep. of Phys. and Astronomy, Univ., of Pennsylvania, Philadelphia PA, USA ; CERN) ; Cvetic, M (Dep. of Phys. and Astronomy, Univ., of Pennsylvania, Philadelphia PA, USA) ; Espinosa, J R (CERN) ; Everett, L (Dep. of Phys. and Astronomy, Univ., of Pennsylvania, Philadelphia PA, USA) ; Langacker, P G (Dep. of Phys. and Astronomy, Univ., of Pennsylvania, Philadelphia PA, USA) ; Wang, J (Dep. of Phys. and Astronomy, Univ., of Pennsylvania, Philadelphia PA, USA) |
| Publication | 1999 |
| Imprint | 24 Jul 1998 |
| Number of pages | 36 |
| In: | Phys. Rev. D 59 (1999) 55005 |
| DOI | 10.1103/PhysRevD.59.055005 |
| Subject category | Particle Physics - Phenomenology |
| Abstract | From the "top-down" approach we investigate physics implications of the class of D- and F- flat directions formed from non-Abelian singlets which are proven flat to all orders in the nonrenormalizable superpotential, for a prototype quasi-realistic free fermionic string model with the standard model gauge group and three families (CHL5). These flat directions have at least an additional U(1)' unbroken at the string scale. For each flat direction, the complete set of effective mass terms and effective trilinear superpotential terms in the observable sector are computed to all orders in the VEV's of the fields in the flat direction. The "string selection-rules" disallow a large number of couplings allowed by gauge invariance, resulting in a massless spectrum with a large number of exotics, in most cases excluded by experiment, thus signifying a generic flaw of these models. Nevertheless, the resulting trilinear couplings of the massless spectrum possess a number of interesting features which we analyse for two representative flat directions: for the fermion texture; baryon- and lepton-number violating couplings; R-parity breaking; non-canonical mu terms; and the possibility of electroweak and intermediate scale symmetry breaking scenarios for U(1)'. The gauge coupling predictions are obtained in the electroweak scale case. Fermion masses possess t-b and tau-mu universality, with the string scale Yukawa couplings g and $g/\sqrt{2}$, respectively. Fermion textures are present for certain flat directions, but only in the down-quark sector. Baryon- and lepton- number violating couplings can trigger proton-decay, $N-{\bar N}$ oscillations, leptoquark interactions and R-parity violation, leading to the absence of a stable LSP. |
Corresponding record in: Inspire
Email contact: cvetic@cvetic.hep.upenn.edu
记录创建於1998-07-24,最後更新在2023-08-15