Probing Minimal Supergravity at the CERN LHC for Large β
Abstract
For large values of the minimal supergravity model parameter β, the tau lepton and the bottom quark Yukawa couplings become large, leading to reduced masses of τ-sleptons and b-squarks relative to their first and second generation counterparts, and to enhanced decays of charginos and neutralinos to τ-leptons and b-quarks. We evaluate the reach of the CERN LHC pp collider for supersymmetry in the mSUGRA model parameter space. We find that values of m 1500-2000 GeV can be probed with just 10 fb-1 of integrated luminosity for β values as high as 45, so that mSUGRA cannot escape the scrutiny of LHC experiments by virtue of having a large value of β. We also perform a case study of an mSUGRA model at β =45 where 2 τ1 and 1 1τ with 100% branching fraction. In this case, at least within our simplistic study, we show that a di-tau mass edge, which determines the value of m_2-m_1, can still be reconstructed. This information can be used as a starting point for reconstructing SUSY cascade decays on an event-by-event basis, and can provide a strong constraint in determining the underlying model parameters. Finally, we show that for large β there can be an observable excess of τ leptons, and argue that τ signals might serve to provide new information about the underlying model framework.
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