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Abstract
We reinterpret the generic CDF charged massive particle limit to obtain a limit on the mass of a stable or long-lived gluino. Various sources of uncertainty are examined. The R-hadron spectrum and scattering cross sections are modeled based on known low-energy hadron physics and the resultant uncertainties are quantified and found to be small compared to uncertainties from the scale dependence of the NLO pQCD production cross sections. The largest uncertainty in the limit comes from the unknown squark mass: when the squark — gluino mass splitting is small, we obtain a gluino mass limit of 407 GeV,while in the limit of heavy squarks the gluino mass limit is 397 GeV. For arbitrary (degenerate) squark masses, we obtain a lower limit of 322 GeV on the gluino mass. These limits apply for any gluino lifetime longer than ∼30 ns, and are the most stringent limits for such a long-lived or stable gluino.
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1 New York University, Center for Cosmology and Particle Physics, Department of Physics, New York, U.S.A. (GRID:grid.137628.9) (ISNI:0000000121698901)
2 Fysikum, Stockholms Universitet, Stockholm, Sweden (GRID:grid.10548.38) (ISNI:0000000419369377)
3 Niels Bohr Institute, Discovery Center for Particle Physics, Copenhagen E, Denmark (GRID:grid.5254.6) (ISNI:000000010674042X)