1,971 research outputs found
Magneto-optical determination of the electron-solid phase-boundary
We have obtained a two-dimensional electron-solid phase diagram in the extreme magnetic quantum limit by studying the temperature dependence of the radiative recombination of electrons in a GaAs/AlxGa1-xAs heterojunction with holes bound to a delta-layer, 250 A away in the GaAs, of Be acceptors. The low-energy shoulder to the luminescence line, indicating the presence of the electron solid, is seen to disappear at a filling-factor-dependent critical temperature. We observe no shoulder above a filling factor of 0.25, and the critical temperature falls to below 0.4 K at filling factors 1/5 and 1/7
Overview of Venus geology: Preliminary description of terrain units for Venus global geological mapping
Venus terrain units can be categorized on the basis of morphology, reflectivity, backscatter, roughness, and emissivity. Morphology can be inferred from Magellan left-looking nominal incidence angle image mosaics, right-looking coverage, and more limited left-looking stereo. The typical resolution is about 300 m down to about 120 m near periapsis in the cycle one nominal coverage. The scale of geologic mapping governs definition of mappable terrain units. Initial global mapping is being compiled at a scale of 1:50 million. At this scale, the smallest individual features that can be mapped are about 125 km. The categories of terrain types are plains, complex ridge terrain, features with morphology suggesting volcanic or volcano-tectonic origin, features interpreted to be tectonic in origin, crater units, and surficial units such as splotches and streaks. Brief descriptions of terrain units are provided
Toward the next generation of research into small area effects on health : a synthesis of multilevel investigations published since July 1998.
To map out area effects on health research, this study had the following aims: (1) to inventory multilevel investigations of area effects on self rated health, cardiovascular diseases and risk factors, and mortality among adults; (2) to describe and critically discuss methodological approaches employed and results observed; and (3) to formulate selected recommendations for advancing the study of area effects on health. Overall, 86 studies were inventoried. Although several innovative methodological approaches and analytical designs were found, small areas are most often operationalised using administrative and statistical spatial units. Most studies used indicators of area socioeconomic status derived from censuses, and few provided information on the validity and reliability of measures of exposures. A consistent finding was that a significant portion of the variation in health is associated with area context independently of individual characteristics. Area effects on health, although significant in most studies, often depend on the health outcome studied, the measure of area exposure used, and the spatial scale at which associations are examined
The QUEST RR Lyrae Survey II: The Halo Overdensities in the First Catalog
The first catalog of the RR Lyrae stars (RRLS) in the Galactic halo by the
QUEST Survey has been searched for significant overdensities that may be debris
from disrupted dwarf galaxies or globular clusters. Away from the major
overdensities, the distribution of these stars is adequately fit by a smooth
halo model, in which the flattening of the halo decreases with increasing
galactocentric distance (Preston et al 1991). This model was used to estimate
the ``background'' of RRLS on which the halo overdensities are overlaid. A
procedure was developed for recognizing groups of stars that constitute
significant overdensities with respect to this background. To test this
procedure, a Monte Carlo routine was used to make artificial RRLS surveys that
follow the smooth halo model, but with Poisson distributed noise in the numbers
of RRLS and, within limits, random variations in the positions and magnitudes
of the artificial stars. The artificial surveys created by this routine were
examined for significant groups in exactly the same way as the QUEST survey.
These calculations provided estimates of the frequencies with which random
fluctuations produce significant groups. In the QUEST survey, there are six
significant overdensities that contain six or more stars and several smaller
ones. The small ones and possibly one or two of the larger ones may be
artifacts of statistical fluctuations, and they need to be confirmed by
measurements of radial velocity and/or proper motion. The most prominent groups
are the northern stream from the Sagittarius dwarf spheroidal galaxy and a
large group in Virgo. Two other groups lie in the direction of the Monoceros
stream and at approximately the right distance for membership. Another group is
related to the globular cluster Palomar 5.Comment: Accepted for publication in the Astronomical Journa
The role of aerodynamic forces in a mathematical model for suspension bridges
In a fish-bone model for suspension bridges studied by us in a previous paper
we introduce linear aerodynamic forces. We numerically analyze the role of
these forces and we theoretically show that they do not influence the onset of
torsional oscillations. This suggests a new explanation for the origin of
instability in suspension bridges: it is a combined interaction between
structural nonlinearity and aerodynamics and it follows a precise pattern. This
gives an answer to a long-standing question about the origin of torsional
instability in suspension bridges
Selection of DNA nanoparticles with preferential binding to aggregated protein target.
High affinity and specificity are considered essential for affinity reagents and molecularly-targeted therapeutics, such as monoclonal antibodies. However, life's own molecular and cellular machinery consists of lower affinity, highly multivalent interactions that are metastable, but easily reversible or displaceable. With this inspiration, we have developed a DNA-based reagent platform that uses massive avidity to achieve stable, but reversible specific recognition of polyvalent targets. We have previously selected these DNA reagents, termed DeNAno, against various cells and now we demonstrate that DeNAno specific for protein targets can also be selected. DeNAno were selected against streptavidin-, rituximab- and bevacizumab-coated beads. Binding was stable for weeks and unaffected by the presence of soluble target proteins, yet readily competed by natural or synthetic ligands of the target proteins. Thus DeNAno particles are a novel biomolecular recognition agent whose orthogonal use of avidity over affinity results in uniquely stable yet reversible binding interactions
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