Speaker
Dr
Masahiro Ibe
(Stanford Linear Accelerator center)
Description
We explain that there is a sweet spot in between the gauge and gravity
mediated supersymmetry breaking scenario where the theory is perfectly
consistent with various requirements.
At the sweet spot, all the classic problems, such as the supersymmetric
flavor/CP problem and the mu-problem are solved.
The observed dark matter can be explained by the gravitino (with mass
O(1) GeV) produced by the decay of the singlet field which is
inevitable for supersymmetry breaking.
We also explain that this "sweet spot" predicts a characteristic spectrum
of supersymmetric particles, that is light scalar tau lepton and light higgs
fermion.
We also discuss in characteristic signatures and a strategy for confirmation
of this class of theories at the LHC experiments.
Authors
Dr
Masahiro Ibe
(Stanford Linear Accelerator center)
Dr
Ryuichiro Kitano
(Stanford Linear Accelerator center)
