2,604 research outputs found
Energy and volume of vector fields on spherical domains
We present in this paper a \boundary version" for theorems about minimality
of volume and energy functionals on a spherical domain of threedimensional
Euclidean sphere
System-size convergence of point defect properties: The case of the silicon vacancy
We present a comprehensive study of the vacancy in bulk silicon in all its
charge states from 2+ to 2-, using a supercell approach within plane-wave
density-functional theory, and systematically quantify the various
contributions to the well-known finite size errors associated with calculating
formation energies and stable charge state transition levels of isolated
defects with periodic boundary conditions. Furthermore, we find that transition
levels converge faster with respect to supercell size when only the Gamma-point
is sampled in the Brillouin zone, as opposed to a dense k-point sampling. This
arises from the fact that defect level at the Gamma-point quickly converges to
a fixed value which correctly describes the bonding at the defect centre. Our
calculated transition levels with 1000-atom supercells and Gamma-point only
sampling are in good agreement with available experimental results. We also
demonstrate two simple and accurate approaches for calculating the valence band
offsets that are required for computing formation energies of charged defects,
one based on a potential averaging scheme and the other using
maximally-localized Wannier functions (MLWFs). Finally, we show that MLWFs
provide a clear description of the nature of the electronic bonding at the
defect centre that verifies the canonical Watkins model.Comment: 10 pages, 6 figure
The utility of surface magnetic field measurements in the MAGSAT program
To take full advantage of the global, vector, survey by the Magsat satellite, and international program of augmented surface measurements was proposed. For secular variation and upper mantle conductivity the proposed measurements are global. The repeat station measurements for secular variation should be occupied at 2-3 year intervals. A special observing period in November and December of 1979 is proposed during which simultaneous, continuous, global measurements for upper mantle conductivity studies are to be gathered. Finally, it is recommended that the networks in operation during the IMS extend their operation through the Fall of 1980 to provide correlative data useful for high latitude disturbance studies and for crustal conductivity studies
Kawasaki disease triggered by EBV virus in a child with Familial Mediterranean Fever
Familial Mediterranean Fever is a monogenic autoinflammatory disease, secondary to mutation of MEFV gene, and typically expressed with recurrent attacks of fever, serositis, rash, aphthous changes in lips and/or oral mucosa. Kawasaki Disease, an acute systemic vasculitis with persistent fever (5 or more days), rash, stomatitis, conjunctivitis, lymphadenopathy, changes in extremities, is currently considered a multifactorial autoinflammatory disease. An infection, as Epstein Barr virus, can be the trigger of Kawasaki Disease
Initial geomagnetic field model from MAGSAT
Magsat data from magnetically quiet days were used to derive a thirteenth degree and order spherical harmonic geomagnetic field model, MGST(3/80). The model utilized both scalar and vector data and fit that data with standard deviations of 8, 52, 55 and 97 nT for the scalar magnitude, B sub r, B sub theta and B sub phi respectively. When compared with earlier models, the Earth's dipole moment continues to decrease at a rate of about 26 nT/year. Evaluation of earlier models with Magsat data shows that the scalar field at the Magsat epoch is best predicted by the POGO(2/72) model but that the AWC/75 and IGS/75 are better for predicting vector fields
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