24,896 research outputs found
Influence of Homogeneous Interfaces on the Strength of 500 nm Diameter Cu Nanopillars
Interfaces play an important role in crystalline plasticity as they affect strength and often serve as obstacles to dislocation motion. Here we investigate effects of grain and nanotwin boundaries on uniaxial strength of 500 nm diameter Cu nanopillars fabricated by e-beam lithography and electroplating. Uniaxial compression experiments reveal that strength is lowered by introducing grain boundaries and significantly rises when twin boundaries are present. Weakening is likely due to the activation of grain-boundary-mediated processes, while impeding dislocation glide can be responsible for strengthening by twin boundaries
Cooperative hunting in a discrete predator-prey system
We propose and investigate a discrete-time predator-prey system with
cooperative hunting in the predator population. The model is constructed from
the classical Nicholson-Bailey host-parasitoid system with density dependent
growth rate. A sufficient condition based on the model parameters for which
both populations can coexist is derived, namely that the predator's maximal
reproductive number exceeds one. We study existence of interior steady states
and their stability in certain parameter regimes. It is shown that the system
behaves asymptotically similar to the model with no cooperative hunting if the
degree of cooperation is small. Large cooperative hunting, however, may promote
persistence of the predator for which the predator would otherwise go extinct
if there were no cooperation
Tying Knots With Communities: Youth Involvement in Scouting and Civic Engagement in Adulthood
Using data from a nationally representative sample of American adult males (N = 2,512), this study examines (a) whether duration of membership in the Boy Scouts of America is associated with adult civic engagement and (b) whether five characteristics of positive youth development (confidence, competence, connection, character, and caring) account for the relationship between duration of Scouting membership and adult civic engagement. The results from structural equation modeling indicate that duration of participation in Scouting is positively associated with four indicators of civic engagement: community involvement, community volunteering, community activism, and environmental activism. Among the five positive characteristics, confidence and competence were found to fully mediate the effects of Scouting on all four types of civic engagement, whereas the other three only to partly mediate the effects
Eagle Scouts: Merit beyond the Badge
Previous studies have shown that participation in Scouting produces better citizens.6 And, there is no shortage of examples or anecdotal accounts that would affirm these findings. Surprisingly, however, there is very little scientific evidence to confirm the prosocial benefits associated with Scouting or earning the rank of Eagle Scout. Thus, the central question of this study is to determine if participation in Scouting and ultimately becoming an Eagle Scout is associated with prosocial behavior and positive youth development that carries over into young adulthood and beyond
Deformation mechanisms in nanotwinned metal nanopillars
Nanotwinned metals are attractive in many applications because they simultaneously demonstrate high strength and high ductility, characteristics that are usually thought to be mutually exclusive. However, most nanotwinned metals are produced in polycrystalline forms and therefore contain randomly oriented twin and grain boundaries making it difficult to determine the origins of their useful mechanical properties. Here, we report the fabrication of arrays of vertically aligned copper nanopillars that contain a very high density of periodic twin boundaries and no grain boundaries or other microstructural features. We use tension experiments, transmission electron microscopy and atomistic simulations to investigate the influence of diameter, twin-boundary spacing and twin-boundary orientation on the mechanical responses of individual nanopillars. We observe a brittle-to-ductile transition in samples with orthogonally oriented twin boundaries as the twin-boundary spacing decreases below a critical value (~3–4 nm for copper). We also find that nanopillars with slanted twin boundaries deform via shear offsets and significant detwinning. The ability to decouple nanotwins from other microstructural features should lead to an improved understanding of the mechanical properties of nanotwinned metals
Chromosomal diversification and karyotype evolution of diploids in the cytologically diverse genus Prospero (Hyacinthaceae)
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited
On the Penrose Inequality for general horizons
For asymptotically flat initial data of Einstein's equations satisfying an
energy condition, we show that the Penrose inequality holds between the ADM
mass and the area of an outermost apparent horizon, if the data are restricted
suitably. We prove this by generalizing Geroch's proof of monotonicity of the
Hawking mass under a smooth inverse mean curvature flow, for data with
non-negative Ricci scalar. Unlike Geroch we need not confine ourselves to
minimal surfaces as horizons. Modulo smoothness issues we also show that our
restrictions on the data can locally be fulfilled by a suitable choice of the
initial surface in a given spacetime.Comment: 4 pages, revtex, no figures. Some comments added. No essential
changes. To be published in Phys. Rev. Let
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