Top squark mass: current limits revisited and new limits from Tevatron Run-I
Abstract
Analyzing the +n-jets+ (where n 2 ), data from Run-I of the Tevatron using the Bayesian technique, we obtain model independent limits on the product ( be+e ) × (* bqq) for different values of the lighter top squark() mass and the lightest supersymmetric particle() mass. The SUSY signals have been simulated by interfacing the 4-body decay of at the parton level with the event generator PYTHIA. These limits have been translated into exclusion plots in the - plane, which also turn out to be fairly model independent for fixed values of the BR of the competing loop decay mode c . Assuming the loop decay BR to be negligible and using the leading order cross section for pair production, we obtain conservatively 77.0 (74.5) GeV for =5(15) GeV, while for ( c )=20%, the corresponding limits are 68.0 (65.0) GeV. Using the larger next to leading order cross-section stronger limits are obtained. For example, if ( c )=20%, 73.0 (72.7) GeV for =5(15) GeV. Our limits nicely complement the ALEPH bounds which get weaker for low .
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