Sujeet Akula, Baris Altunkaynak, Daniel Feldman, Pran Nath, Gregory Peim
LHC-7 has narrowed down the mass range of the light Higgs boson. This result
is consistent with the supergravity unification framework and the current Higgs
boson mass window implies a rather significant loop correction to the tree
value pointing to a relatively heavy scalar sparticle spectrum with universal
boundary conditions. It is shown that the largest value of the Higgs boson mass
is obtained on the Hyperbolic Branch of radiative breaking. The implications of
light Higgs boson in the broader mass range of 115 GeV to 131 GeV and a
narrower range of 123 GeV to 127 GeV are explored in the context of the
discovery of supersymmetry at LHC-7 and for the observation of dark matter in
direct detection experiments.
View original:
http://arxiv.org/abs/1112.3645
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