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Improved LEP lower bound on the lightest SUSY Higgs mass from Radiative Electroweak Breaking and its Experimental Consequences

arXiv:hep-ph/9302234 · doi:10.1016/0370-2693(93)91140-I

Abstract

We show that the present LEPI lower bound on the Standard Model Higgs boson mass ($M_H\gsim60\GeV$) applies as well to the lightest Higgs boson ($h$) of the minimal $SU(5)$ and no-scale flipped $SU(5)$ supergravity models. This result would persist even for the ultimate LEPI lower bound ($M_H\gsim70\GeV$). We show that this situation is a consequence of a decoupling phenomenon in the Higgs sector driven by radiative electroweak breaking for increasingly larger sparticle masses, and thus it should be common to a large class of supergravity models. A consequence of $m_h\gsim60\GeV$ in the minimal $SU(5)$ supergravity model is the exclusion from the allowed parameter space of `spoiler modes' ($χ^0_2\toχ^0_1 h$) which would make the otherwise very promising trilepton signal in $p\bar p\toχ^\pm_1χ^0_2X$ unobservable at Fermilab. Within this model we also obtain stronger upper bounds on the lighter neutralino and chargino masses, \ie, $m_{χ^0_1}\lsim50\GeV$, $m_{χ^0_2,χ^\pm_1}\lsim100\GeV$. This should encourage experimental searches with existing facilities.

7 pages plus 3 postscript figures (included); CTP-TAMU-05/93, CERN-PPE/93-17