The strongest experimental constraints on SU(5)xU(1) supergravity models
Abstract
We consider a class of well motivated string-inspired flipped SU(5) supergravity models which include four supersymmetry breaking scenarios: no-scale, strict no-scale, dilaton, and special dilaton, such that only three parameters are needed to describe all new phenomena (mt,β,m g). We show that the LEP precise measurements of the electroweak parameters in the form of the ε1 variable, and the CLEOII allowed range for are at present the most important experimental constraints on this class of models. For mt155\,(165), the ε1 constraint (at 90(95)\%CL) requires the presence of light charginos (m_150-100 depending on mt). Since all sparticle masses are proportional to m g, m_1100 implies: m0155, m02100, m g360, m q350\,(365), m eR80\,(125), m eL120\,(155), and m100\,(140) in the no-scale (dilaton) flipped SU(5) supergravity model. The constraint excludes a significant fraction of the otherwise allowed region in the (m_1,β) plane (irrespective of the magnitude of the chargino mass), while future experimental improvements will result in decisive tests of these models. In light of the ε1 constraint, we conclude that the outlook for chargino and selectron detection at LEPII and at HERA is quite favorable in this class of models.
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