The Race for Supersymmetric Dark Matter at XENON100 and the LHC: Stringy Correlations from No-Scale \cal{F}-SU(5)

Details The Race for Supersymmetric Dark Matter at XENON100 and the LHC: Stringy Correlations from No-Scale \cal{F}-SU(5) The Race for Supersymmetric Dark Matter at XENON100 and the LHC: Stringy Correlations from No-Scale \cal{F}-SU(5)

2011-06-06

arxiv.org/abs/1106.1165v1

Physics

High Energy Physics

High Energy Physics - Phenomenology

11 Pages, 4 Figures, 1 Table

Scientific paper

The historic race for the discovery of supersymmetry (SUSY) via action of the cold dark matter candidate is being led on the indirect collider production front by the LHC, and correspondingly by the XENON100 collaboration on the direct detection front. We undertake a dual case study of the specific SUSY signatures which the No-Scale flipped SU(5) x U(1)_X grand unified theory with TeV-scale vectorlike particles (No-Scale \cal{F}-SU(5)) would exhibit at each of these experiments. We demonstrate the striking correlation between the near-term prospects of these two distinct approaches, suggesting that either may make a credible claim of the current search advantage. We feature a dark matter candidate which is over 99.7% Bino due to a comparatively large electroweak scale \mu term, and thus automatically satisfy the current constraints from the XENON100 and CDMS/EDELWEISS experiments. We do however expect that the ongoing extension of the XENON100 run may effectively probe our model. Likewise, although currently safe with respect to published LHC limits, our model can be also tested at the early LHC run by retuning for the signal of ultra-high multiplicity hadronic jets which are a characteristic feature of the distinctive No-Scale \cal{F}-SU(5) mass hierarchy.

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