3,138 research outputs found
Origins of Hidden Sector Dark Matter I: Cosmology
We present a systematic cosmological study of a universe in which the visible
sector is coupled, albeit very weakly, to a hidden sector comprised of its own
set of particles and interactions. Assuming that dark matter (DM) resides in
the hidden sector and is charged under a stabilizing symmetry shared by both
sectors, we determine all possible origins of weak-scale DM allowed within this
broad framework. We show that DM can arise only through a handful of
mechanisms, lending particular focus to Freeze-Out and Decay and Freeze-In, as
well as their variations involving late time re-annihilations of DM and DM
particle anti-particle asymmetries. Much like standard Freeze-Out, where the
abundance of DM depends only on the annihilation cross-section of the DM
particle, these mechanisms depend only on a very small subset of physical
parameters, many of which may be measured directly at the LHC. In particular,
we show that each DM production mechanism is associated with a distinctive
window in lifetimes and cross-sections for particles which may be produced in
the near future. We evaluate prospects for employing the LHC to definitively
reconstruct the origin of DM in a companion paper.Comment: 32 pages, 19 figures; v2: references added, published versio
The Maximal Inverse Seesaw from Operator and Oscillating Asymmetric Sneutrino Dark Matter
The maximal supersymmetric inverse seesaw mechanism (MSIS)
provides a natural way to relate asymmetric dark matter (ADM) with neutrino
physics. In this paper we point out that, MSIS is a natural outcome if one
dynamically realizes the inverse seesaw mechanism in the next-to minimal
supersymmetric standard model (NMSSM) via the dimension-five operator
, with the NMSSM singlet developing TeV scale VEV; it
slightly violates lepton number due to the suppression by the fundamental scale
, thus preserving maximally. The resulting sneutrino is a
distinguishable ADM candidate, oscillating and favored to have weak scale mass.
A fairly large annihilating cross section of such a heavy ADM is available due
to the presence of singlet.Comment: journal versio
ATLAS Z Excess in Minimal Supersymmetric Standard Model
Recently the ATLAS collaboration reported a 3 sigma excess in the search for
the events containing a dilepton pair from a Z boson and large missing
transverse energy. Although the excess is not sufficiently significant yet, it
is quite tempting to explain this excess by a well-motivated model beyond the
standard model. In this paper we study a possibility of the minimal
supersymmetric standard model (MSSM) for this excess. Especially, we focus on
the MSSM spectrum where the sfermions are heavier than the gauginos and
Higgsinos. We show that the excess can be explained by the reasonable MSSM mass
spectrum.Comment: 13 pages, 7 figures; published versio
The Grassmannian and the Twistor String: Connecting All Trees in N=4 SYM
We present a new, explicit formula for all tree-level amplitudes in N=4 super
Yang-Mills. The formula is written as a certain contour integral of the
connected prescription of Witten's twistor string, expressed in link variables.
A very simple deformation of the integrand gives directly the Grassmannian
integrand proposed by Arkani-Hamed et al. together with the explicit contour of
integration. The integral is derived by iteratively adding particles to the
Grassmannian integral, one particle at a time, and makes manifest both parity
and soft limits. The formula is shown to be related to those given by Dolan and
Goddard, and generalizes the results of earlier work for NMHV and N^2MHV to all
N^(k-2)MHV tree amplitudes in N=4 super Yang-Mills.Comment: 26 page
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