Abstract
In our recent paper entitled “The return of the King: No-Scale F-SU(5)”, we showed that the model space supporting the most favorable phenomenology should have been probed in 2016 at the LHC2, with an even further reach into this region of the model in 2017–18. This ideal realm of the one-parameter version of No-Scale F-SU(5) yields a 1.9–2.3 TeV gluino mass at the very same point where the light Higgs boson mass enters its rather narrow experimentally determined range of mh=125.09±0.24 GeV. Given the recent results reported at Moriond 2017 for 36 fb−1 of luminosity collected in 2016 at the 13 TeV LHC2, we now update the status of the No-Scale F-SU(5) model space in light of the gluino mass exclusion limits presented by the ATLAS and CMS Collaborations. We illustrate that a resolution could be reached soon as to whether supersymmetry lives in this most critical region of the model space.
Highlights
The ATLAS and CMS Collaborations at the LHC2 recorded 36 fb−1 of luminosity in 2016 at a center-ofmass energy of 13 TeV
In the search for supersymmetry (SUSY), the LHC2 in 2016 probed gluino (g) masses beyond 2 TeV, with current constraints in the multijet and multiple b-jet search regions residing at 1.92 TeV for ATLAS [1] and 1.96 TeV for CMS [2]
It is expected that the LHC2 in 2017 will have at least a reach to a 2.0–2.3 TeV gluino mass
Summary
The ATLAS and CMS Collaborations at the LHC2 recorded 36 fb−1 of luminosity in 2016 at a center-ofmass energy of 13 TeV. In the search for supersymmetry (SUSY), the LHC2 in 2016 probed gluino (g) masses beyond 2 TeV, with current constraints in the multijet and multiple b-jet search regions residing at 1.92 TeV for ATLAS [1] and 1.96 TeV for CMS [2].
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