Studying the effect of dark energy on large -
scale structure involves measuring subtle distortions in the shapes of galaxies arising from the bending of space by intervening matter, a phenomenon known as «weak lensing.»
Not exact matches
After presenting the central concept
involved, that of single - electron stroboscopic imaging, we discuss prototypical applications, which include the visualization of complex
structures when unfolding on different length and time
scales.
Designing materials for use in the large variety of gadgets and
structures that support our everyday lives
involves understanding them at their atomic, electronic and macroscopic
scales.
«We fully expect high - performance computers to be of critical help in our next simulations
involving larger
scale and more complex
structures,» said Alex Song, a Stanford postdoctoral research associate, who carried out the electromagnetic simulations of these fiber
structures.
«There is
structure on
scales at which the universe is supposed to be boring,» says Subir Sarkar, a theorist at the University of Oxford who was not
involved in the work.
For example, it is easy to invent models of inflation that produce more large -
scale structure than in the standard model, though none of these seem particularly compelling, because all
involve a coincidence of some sort.
In order to obtain such high magnetic performances it is necessary to gain precise control of the synthesis parameters during the manufacturing process of a magnet and to thoroughly understand the atomic -
scale structure and behaviour of the
involved phases.
Moreover, large -
scale screens in the C. elegans DMD model allowed identifying genetic and pharmacologic suppressors of dystrophin - dependent muscle degeneration; some of them positively impact mitochondrial functions or
structure under stress conditions, or are
involved in signaling pathways linked to mitochondria, and others are associated to proteostasis pathways such as autophagy, proteasome and Unfolded Protein Response (UPR).
Panelists offered an in - depth look at D.C.'s FCE policies and
structures and their journey from trying out national best practices on a small
scale to a more systemic approach actively
involving over two - thirds of their schools.
These periods could
involve adjustments to your service offering, workforce
structure, or even those happening on a wider
scale within your industry.
The study
involved administering all 3 sets of
scales to a general population sample who were then interviewed by clinical interviewers blinded to screening
scales scores and classified as having or not having SMI based on 12 - month prevalences of DSM - IV disorders, as assessed by the
Structured Clinical Interview (SCID) for DSM - IV16 and scores on the GAF.1 Logistic regression analyses were then carried out to estimate the strength of associations between the screening
scales and SMI using linear and nonlinear prediction equations that assumed either additive or multiplicative associations among the different screening
scales.