Cosmology and Dark Matter at the LHC
arXiv:hep-ph/0701053 · doi:10.1142/9789812770288_0001
Abstract
We examine the question of whether neutralinos produced at the LHC can be shown to be the particles making up the astronomically observed dark matter. If the WIMP alllowed region lies in the SUGRA coannihilation region, then a strong signal for this would be the unexpected near degeneracy of the stau and neutralino i.e., a mass difference ÎM\simeq (5-15) GeV. For the mSUGRA model we show such a small mass difference can be measured at the LHC using the signal 3Ï+jet+E_T^{\rm miss}. Two observables, opposite sign minus like sign pairs and the peak of the ÏÏmass distribution allows the simultaneous determination of ÎM to 15% and the gluino mass M_{\tilde g} to be 6% at the benchmark point of M_{\tilde g}=850 GeV, A_0=0, μ>0 with 30 fb^{-1}. With 10 fb^{-1}, ÎM can be determined to 22% and one can probe the parameter space up to m_{1/2}=700 GeV with 100 fb^{-1}.
11 pages, 7 figures, Talk at IDM 2006, 11th September to 16th September, Greece