18,905 research outputs found
Low scale gravity mediation with warped extra dimension and collider phenomenology on the hidden sector
We propose a scenario of gravity mediated supersymmetry breaking (gravity
mediation) in a supersymmetric Randall-Sundrum model. In our setup, both of the
visible sector and the hidden sector co-exist on the infrared (IR) brane. We
introduce the Polonyi model as a simple hidden sector. Due to the warped
metric, the effective cutoff scale on the IR brane is ``warped down'', so that
the gravity mediation occurs at a low scale. As a result, the gravitino is
naturally the lightest superpartner (LSP) and contact interactions between the
hidden and the visible sector fields become stronger. We address
phenomenologies for various IR cutoff scales. In particular, we investigate
collider phenomenology involving a scalar field (Polonyi field) in the hidden
sector for the case with the IR cutoff around 10 TeV. We find a possibility
that the hidden sector scalar can be produced at the LHC and the International
Linear Collider (ILC). Interestingly, the scalar behaves like the Higgs boson
of the standard model in the production process, while its decay process is
quite different and, once produced, it will provide us with a very clean
signature. The hidden sector may be no longer hidden.Comment: 18 pages, 4 figures. typographical errors have been corrected and a
few new comments have been adde
Structure of super-families
At present the study of nuclear interactions induced by cosmic rays is the unique source of information on the nuclear interactions in the energy region above 10 to the 15th power eV. The phenomena in this energy region are observed by air shower arrays or emulsion chambers installed at high mountain. An emulsion chamber is the pile of lead plates and photo-sensitive layers (nuclear emulsion plates and/or X-ray films) used to detect electron showers. High spatial resolution of photographic material used in the emulsion chamber enables the observation of the phenomena in detail, and recent experiments of emulsion chamber with large area are being carried out at high mountain altitudes by several groups in the world
A unified model for the long and high jump
A simple model based on the maximum energy that an athlete can produce in a
small time interval is used to describe the high and long jump. Conservation of
angular momentum is used to explain why an athlete should run horizontally to
perform a vertical jump. Our results agree with world records.Comment: Accepted for publication in Am. J. Phy
Maximal entanglement of two spinor Bose-Einstein condensates
Starting with two weakly-coupled anti-ferromagnetic spinor condensates, we
show that by changing the sign of the coefficient of the spin interaction,
, via an optically-induced Feshbach resonance one can create an
entangled state consisting of two anti-correlated ferromagnetic condensates.
This state is maximally entangled and a generalization of the Bell state from
two anti-correlated spin-1/2 particles to two anti-correlated spin atomic
samples, where is the total number of atoms.Comment: 5 pages, 3 figures, accepted for publication in PR
0-pi oscillations in nanostructured Nb/Fe/Nb Josephson junctions
The physics of the phase shift in ferromagnetic Josephson junctions may
enable a range of applications for spin-electronic devices and quantum
computing. We investigate transitions from ``0'' to ``'' states in
Nb/Fe/Nb Josephson junctions by varying the Fe barrier thickness from 0.5 nm to
5.5 nm. From magnetic measurements we estimate for Fe a magnetic dead layer of
about 1.1 nm. By fitting the characteristic voltage oscillations with existing
theoretical models we extrapolate an exchange energy of 256 meV, a Fermi
velocity of m/s and an electron mean free path of 6.2 nm, in
agreement with other reported values. From the temperature dependence of the
product we show that its decay rate exhibits a nonmonotonic
oscillatory behavior with the Fe barrier thickness.Comment: 7 pages, 5 figures, accepted for publication in Eur. Phys. J.
The Influence of Human Disturbance on Wildlife Use of a Highway in South Texas
Roads can greatly impact wildlife. Wildlife vehicle collisions contribute to population declines while disturbance from human activity may prevent wildlife from using areas around roads. The construction of mitigation structures may lessen these effects through fine scale modification of animal use of roadside areas. In this thesis, how the construction of wildlife mitigation structures impacted the fine scale distribution of wildlife on State Highway 100 in Cameron County, Texas was examined. Spatial and temporal scale may also influence these relationships. The relationship between human activity and wildlife activity around the highway was explored and how the distribution of wildlife road mortalities changed with construction was assessed. Wildlife used areas along the road primarily at night and areas around roads during the day. Additionally, road mortality distribution did not change after the construction of mitigation structures. Therefore, human disturbance seems to have impacted temporal activity but not spatial activity of wildlife
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