Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2000-05-18
JHEP 0008:017,2000
Physics
High Energy Physics
High Energy Physics - Phenomenology
16 pages, 7 figures. Version 2: significant numerical changes due to improved accuracy of fine-tuning calculation. Section add
Scientific paper
10.1088/1126-6708/2000/08/017
We re-analyse the prospects of discovering supersymmetry at the LHC, in order to re-express coverage in terms of a fine-tuning parameter and to extend the analysis to scalar masses (m_0) above 2 TeV. We use minimal supergravity (mSUGRA) unification assumptions for the SUSY breaking parameters. The discovery reach at high m_0 is of renewed interest because this region has recently been found to have a focus point, leading to relatively low fine-tuning, and because it remains uncertain how much of the region can be ruled out due to lack of radiative electroweak symmetry breaking. The best fine tuning reach is found in a mono-leptonic channel, where for mu>0, A_0=0 and tan beta=10 (within the focus point region), and a top mass of 174 GeV, all points in mSUGRA with m_0 < 4000 GeV, with a fine tuning measure up to 210 (500) are covered by the search, where the definition of fine-tuning excludes (includes) the contribution from the top Yukawa coupling. Even for arbitrarily high m_0, mSUGRA can be discovered through gaugino events, provided the gaugino mass parameter M_1/2 < 460 GeV. In this region, the mono-leptonic channel still provides the best reach.
Allanach Ben C.
Hetherington James P. J.
Parker Michael A.
Webber Bryan R.
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