250 research outputs found
Pseudo-goldstone higgs from five dimensions
I discuss radiative generation of the higgs potential in 5D models of
gauge-higgs unification.Comment: Submitted for the SUSY07 proceedings, 4 pages. v2: Eq. 25 correcte
Exotic Higgs decays in the golden channel
The Higgs boson may have decay channels that are not predicted by the
Standard Model. We discuss the prospects of probing exotic Higgs decays at the
LHC using the 4-lepton final state. We study two specific scenarios, with new
particles appearing in the intermediate state of the 4-lepton Higgs decay. In
one, Higgs decays to a Z boson and a new massive gauge boson, the so-called
hidden photon. In the other, Higgs decays to an electron or a muon and a new
vector-like fermion. We argue that the upcoming LHC run will be able to explore
a new parameter space of these models that is allowed by current precision
constraints. Employing matrix element methods, we use the full information
contained in the differential distribution of the 4-lepton final state to
extract the signal of exotic decays. We find that, in some cases, the LHC can
be sensitive to new physics even when the correction to the total 4-lepton
Higgs rate is of the order of a percent. In particular, for the simplest
realization of the hidden photon with the mass between 15 and 65 GeV, new
parameter space can be explored in the LHC run-II.Comment: 16 pages; v2: minor corrections, references adde
A second Higgs from the Higgs portal
In the Higgs portal framework, the Higgs field generally mixes with the
Standard Model singlet leading to the existence of two states, one of which is
identified with the 125 GeV scalar observed at the LHC. In this work, we
analyse direct and indirect constraints on the second mass eigenstate and the
corresponding mixing angle. The existence of the additional scalar can be
beneficial as it can stabilise the otherwise-metastable electroweak vacuum. We
find parameter regions where all of the bounds, including the stability
constraints, are satisfied. We also study prospects for observing the decay of
the heavier state into a pair of the 125 GeV Higgs-like scalars.Comment: 16 pages, updated figures 3 and 4 with new limits from Higgs-searches
at the LHC, minor text adjustments, references adde
SUSY Phenomenology of KKLT Flux Compactifications
We study SUSY phenomenology of the KKLT (Kachru-Kallosh-Linde-Trivedi)
scenario of string theory compactifications with fluxes. This setup leads to a
specific pattern of soft masses and distinct phenomenological properties. In
particular, it avoids the cosmological gravitino/moduli problems. Remarkably,
the model allows for the correct abundance of SUSY dark matter consistently
with all experimental constraints including the bound on the Higgs mass, b-->s
gamma, etc. This occurs for both small and large tan beta, and requires the
SUSY spectrum above 1 TeV.Comment: 23 pages, 8 figures; v2: erratum attache
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