Phenomenological Implications of the m_t RGE Fixed Point for SUSY Higgs Boson Searches

Details Phenomenological Implications of the m_t RGE Fixed Point for SUSY Higgs Boson Searches Phenomenological Implications of the m_t RGE Fixed Point for SUSY Higgs Boson Searches

1993-05-19

arxiv.org/abs/hep-ph/9305288v1

Phys. Lett. B314 (1993) 351

Physics

High Energy Physics

High Energy Physics - Phenomenology

(Talk given at the Hawaii LCWS VB), 4 pages + 4 EPS figures included (uuencoded), MAD/PH/760

Scientific paper

10.1016/0370-2693(93)91248-L

In minimal SUSY-GUT models with $M_{SUSY}\alt 1$ TeV, the renormalization group equations have a solution dominated by the infrared fixed point of the top Yukawa coupling. This fixed point predicts $m_t\simeq (200\; {\rm GeV})\sin \beta $; combined with the LEP results it excludes $m_t\alt 130$ GeV. For $m_t$ in the range 130--160 GeV, it predicts that the lightest scalar $h$ has mass 60--85 GeV (detectable at LEP\,II). At SSC/LHC, each of the five scalars $h$, $H$, $A$, $H^{\pm }$ may be detectable, but not all of them together; in one parameter region none would be detectable.

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