Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2002-01-10
Phys.Rev.D65:115004,2002
Physics
High Energy Physics
High Energy Physics - Phenomenology
30 pages, 20 figures, revised version to be published in Phys. Rev. D
Scientific paper
10.1103/PhysRevD.65.115004
In simple SO(10) SUSY GUTs the top, bottom and tau Yukawa couplings unify at the GUT scale. A naive renormalization group analysis, neglecting weak scale threshold corrections, leads to moderate agreement with the low energy data. However it is known that intrinsically large threshold corrections proportional to $\tan\beta \sim m_t(M_Z)/m_b(M_Z) \sim 50$ can nullify these $t, b$, $\tau$ mass predictions. In this paper we turn the argument around. Instead of predicting fermion masses, we use the constraint of Yukawa unification and the observed values $M_t, m_b(m_b), M_\tau$ to constrain SUSY parameter space. We find a narrow region survives for $\mu > 0$ with $\mu, M_{1/2} << m_{16}$, $A_0 \approx - 1.9 m_{16}$ and $m_{16} > 1200$ \gev. Demanding Yukawa unification thus makes definite predictions for Higgs and sparticle masses. In particular we find a light higgs with mass $m_h^0 = 114 \pm 5 \pm 3$ GeV and a light stop with $(m_{\tilde t_1})_{MIN} \sim 450$ GeV and $m_{\tilde t_1} << m_{\tilde b_1}$. In addition, we find a light chargino and a neutralino LSP. It is also significant that in this region of parameter space the SUSY contribution to the muon anomalous magnetic moment $a_\mu^{SUSY} < 16 \times 10^{-10}$.
Blazek Tomas
Dermisek Radovan
Raby Stuart
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