Orbital Fluctuation-Induced Triplet Superconductivity : Mechanism of Superconductivity in Sr2RuO4{\rm Sr}_{2}{\rm RuO}_{4}

The mechanism of superconductivity in ${\rm Sr}_{2}{\rm RuO}_{4}$ is studied using a degenerate Hubbard model within the weak coupling theory. When the system approaches the orbital instability which is realized due to increasing the on-site Coulomb interaction between the electrons in the different orbitals, it is shown that the triplet superconductivity appears. This superconducting mechanism is only available in orbitally degenerate systems with multiple Fermi surfaces.Comment: 5 pages, 4 figure

Academic entrepreneurship : a source of competitive advantage

This�report is the result of a cooperation between�EIM,�Erasmus University�and Indiana University. The study has largely been executed by students of�the assocation�'Le Manageur'�under supervision of�the above institutions. The study evaluates university�spin-offs�in the transfer of� technology from universities into society and provides a comparative case study of spin-off� stimulation. The study concludes that governments that would like to tackle�problems in�knowledge transfer between firms and public institutions should�encourage knowledge institutions to adopt a more proactive stance towards commercialization and cooperation. Stimulating an entrepreneurial spirit and knowledge spin-offs in public research and educational institutions�can help overcome many of the problems in knowledge transfer. This research shows that spin-offs�are�a good supplement to existing transfer mechanisms such as�licensing and contract research. University spin-offs�are a good way to transfer�radical and incremental technologies�to society.�This form of technology transfer does require a strong supporting infrastructure and sufficient entrepreneurial human capital.

Characterization of the binding of botulinum type B 16S toxin to human intestinal epithelial cells

Botulinum neurotoxin produced by Clostridium botulinum type B is a complex of 12S and 16S toxins. 12S toxin consists of a neurotoxin and a nontoxic non-HA (NTNH). The 16S toxin consists of a neurotoxin, an NTNH, and a hemagglutinin (HA). Food-borne botulism is caused by these complex toxins, which are ingested orally and absorbed from the digestive tract across the epithelial barrier lining the gut. Here we show that the type B 16S toxin, but not the 12S toxin or the neurotoxin, binds to the T84 human intestinal epithelial cell line. We also demonstrate that the HA moiety in the 16S toxin mediates the toxin binding to the cells. The carbohydrates containing a galactose moiety inhibited the binding of the 16S toxin to the T84 cells, and neuraminidase treatment of the cells increased the 16S toxin binding. The binding of the 16S toxin to the neuraminidase-treated cells was also inhibited by carbohydrates containing a galactose moiety. These results suggest that the type B 16S toxin binds to human intestinal epithelial cells via the galactose moiety in the carbohydrate chain on the cell surface

Study of the electron trigger efficiency of the CMS Experiment using test beam data

A study of the electron identification and selection efficiency of the L1 Trigger algorithm has been performed using the combined ECAL/HCAL test beam data. A detailed discussion of the electron isolation and its impact on the selection efficiency is presented. The L1 electron algorithm is studied for different beam energies and the results indicate that efficiencies of 98% or more can be achieved for electrons with energies between 15 and 100 GeV. The fraction of charged hadrons with energies from 3 up to 100 GeV rejected by the L1 electron trigger algorithm is estimated to be larger than 93%.Comment: 22 pages, 14 figure

Unprocessed red meat and processed meat consumption: Dietary guideline recommendations from the NutriRECS Consortium

Description: Dietary guideline recommendations require consideration of the certainty in the evidence, the magnitude of potential benefits and harms, and explicit consideration of people's values and preferences. A set of recommendations on red meat and processed meat consumption was developed on the basis of 5 de novo systematic reviews that considered all of these issues. Methods: The recommendations were developed by using the Nutritional Recommendations (NutriRECS) guideline development process, which includes rigorous systematic review methodology, and GRADE methods to rate the certainty of evidence for each outcome and to move from evidence to recommendations. A panel of 14 members, including 3 community members, from 7 countries voted on the final recommendations. Strict criteria limited the conflicts of interest among panel members. Considerations of environmental impact or animal welfare did not bear on the recommendations. Four systematic reviews addressed the health effects associated with red meat and processed meat consumption, and 1 systematic review addressed people's health-related values and preferences regarding meat consumption. Recommendations: The panel suggests that adults continue current unprocessed red meat consumption (weak recommendation, low-certainty evidence). Similarly, the panel suggests adults continue current processed meat consumption (weak recommendation, low-certainty evidence)

Transverse Spin Structure of the Nucleon through Target Single Spin Asymmetry in Semi-Inclusive Deep-Inelastic (e,e′π±)(e,e^\prime \pi^\pm) Reaction at Jefferson Lab

Jefferson Lab (JLab) 12 GeV energy upgrade provides a golden opportunity to perform precision studies of the transverse spin and transverse-momentum-dependent structure in the valence quark region for both the proton and the neutron. In this paper, we focus our discussion on a recently approved experiment on the neutron as an example of the precision studies planned at JLab. The new experiment will perform precision measurements of target Single Spin Asymmetries (SSA) from semi-inclusive electro-production of charged pions from a 40-cm long transversely polarized $^3$He target in Deep-Inelastic-Scattering kinematics using 11 and 8.8 GeV electron beams. This new coincidence experiment in Hall A will employ a newly proposed solenoid spectrometer (SoLID). The large acceptance spectrometer and the high polarized luminosity will provide precise 4-D ($x$, $z$, $P_T$ and $Q^2$) data on the Collins, Sivers, and pretzelocity asymmetries for the neutron through the azimuthal angular dependence. The full 2$\pi$ azimuthal angular coverage in the lab is essential in controlling the systematic uncertainties. The results from this experiment, when combined with the proton Collins asymmetry measurement and the Collins fragmentation function determined from the e$^+$e$^-$ collision data, will allow for a quark flavor separation in order to achieve a determination of the tensor charge of the d quark to a 10% accuracy. The extracted Sivers and pretzelocity asymmetries will provide important information to understand the correlations between the quark orbital angular momentum and the nucleon spin and between the quark spin and nucleon spin.Comment: 23 pages, 13 figures, minor corrections, matches published versio

SEAD: Preserving Data for Environmental Sciences in Areas of Climate, Land-Use, and Environmental Management

NSF Funded DataNet Project #OCI0940824 • SEAD goal is to contribute infrastructure to the NSF DataNet Vision that supports data • Access • Sharing • Reuse • Preservation • Direct work with data at the NSF STC NCED (National Center for Earth-Surface Dynamics