6,432 research outputs found
Evolutionary optimization of all-dielectric magnetic nanoantennas
Magnetic light and matter interactions are generally too weak to be detected,
studied and applied technologically. However, if one can increase the magnetic
power density of light by several orders of magnitude, the coupling between
magnetic light and matter could become of the same order of magnitude as the
coupling with its electric counterpart. For that purpose, photonic nanoantennas
have been proposed, and in particular dielectric nanostructures, to engineer
strong local magnetic field and therefore increase the probability of magnetic
interactions. Unfortunately, dielectric designs suffer from physical
limitations that confine the magnetic hot spot in the core of the material
itself, preventing experimental and technological implementations. Here, we
demonstrate that evolutionary algorithms can overcome such limitations by
designing new dielectric photonic nanoantennas, able to increase and extract
the optical magnetic field from high refractive index materials. We also
demonstrate that the magnetic power density in an evolutionary optimized
dielectric nanostructure can be increased by a factor 5 compared to state of
the art dielectric nanoantennas. In addition, we show that the fine details of
the nanostructure are not critical in reaching these aforementioned features,
as long as the general shape of the motif is maintained. This advocates for the
feasibility of nanofabricating the optimized antennas experimentally and their
subsequent application. By designing all dielectric magnetic antennas that
feature local magnetic hot-spots outside of high refractive index materials,
this work highlights the potential of evolutionary methods to fill the gap
between electric and magnetic light-matter interactions, opening up new
possibilities in many research fields.Comment: 13 pages, 4 figure
Resolving the structure of TiBe
There has been considerable controversy regarding the structure of
TiBe, which is variously reported as hexagonal and tetragonal. Lattice
dynamics simulations based on density functional theory show the tetragonal
phase space group to be more stable over all temperatures, while the
hexagonal phase exhibits an imaginary phonon mode, which, if followed, would
lead to the cell adopting the tetragonal structure. We then report the
predicted ground state elastic constants and temperature dependence of the bulk
modulus and thermal expansion for the tetragonal phase.Comment: In press at Acta Crystallographica B. Supplementary material appende
Crystal structure, thermodynamics, magnetics and disorder properties of Be-Fe-Al intermetallics
The elastic and magnetic properties, thermodynamical stability, deviation
from stoichiometry and order/disorder transformations of phases that are
relevant to Be alloys were investigated using density functional theory
simulations coupled with phonon density of states calculations to capture
temperature effects. A novel structure and composition were identified for the
Be-Fe binary {\epsilon} phase. In absence of Al, FeBe_5 is predicted to form at
equilibrium above ~ 1250 K, while the {\epsilon} phase is stable only below ~
1650 K, and FeBe_2 is stable at all temperatures below melting. Small additions
of Al are found to stabilise FeBe_5 over FeBe_2 and {\epsilon}, while at high
Al content, AlFeBe_4 is predicted to form. Deviations from stoichiometric
compositions are also considered and found to be important in the case of
FeBe_5 and {\epsilon}. The propensity for disordered vs ordered structures is
also important for AlFeBe_4 (which exhibits complete Al-Fe disordered at all
temperatures) and FeBe_5 (which exhibits an order-disorder transition at ~ 950
K).Comment: 14 pages, 10 figures, accepted for publication in J. Alloy Compd. on
14 March 201
Differential effect of denervation on free radical scavenging enzymes in slow and fast muscle of rat
To determine the effect of denervation on the free radical scavenging systems in relation to the mitochondrial oxidative metabolism in the slow twitch soleus and fast twitch extensor digitorum longus (EDL) muscles, the sciatic nerve of the rat was crushed in the mid-thigh region and the muscle tissue levels of 5 enzymes were studied 2 and 5 weeks following crush. Radioimmunoassays were utilized for the selective measurement of cuprozinc (cytosolic) and mangano (mitochondrial) superoxide dismutases. These data represent the first systematic report of free radical scavening systems in slow and fast muscles in response to denervation. Selective modification of cuprozinc and manganosuperoxide dismutases and differential regulation of GSH-peroxidase was demonstrated in slow and fast muscle
50 Years of Research at the North Platte Experiment Station
The North Platte Experiment was established fifty years ago. So many changes have occurred since then that few people remember why research in dry land agriculture was started in Nebraska and other Great Plains states. In order to get a proper perspective, it may be well to consider some early history
Ramsey numbers of graphs with long tails
AbstractThe ramsey number of a connected nonbipartite graph G with a sufficiently long path emanating from one of its points is found to be (n−1)(χ−1)+s, where n is the number of points of G, χ is the chromatic number of G, and s is the minimum possible number of points in a color class in a χ-coloring of the points of G
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