4,184 research outputs found
The nonequilibrium Ehrenfest gas: a chaotic model with flat obstacles?
It is known that the non-equilibrium version of the Lorentz gas (a billiard
with dispersing obstacles, electric field and Gaussian thermostat) is
hyperbolic if the field is small. Differently the hyperbolicity of the
non-equilibrium Ehrenfest gas constitutes an open problem, since its obstacles
are rhombi and the techniques so far developed rely on the dispersing nature of
the obstacles. We have developed analytical and numerical investigations which
support the idea that this model of transport of matter has both chaotic
(positive Lyapunov exponent) and non-chaotic steady states with a quite
peculiar sensitive dependence on the field and on the geometry, not observed
before. The associated transport behaviour is correspondingly highly irregular,
with features whose understanding is of both theoretical and technological
interest
Phase transformations induced by spherical indentation in ion-implanted amorphous silicon
The deformation behavior of ion-implanted (unrelaxed) and annealed ion-implanted (relaxed) amorphous silicon(a-Si) under spherical indentation at room temperature has been investigated. It has been found that the mode of deformation depends critically on both the preparation of the amorphous film and the scale of the mechanical deformation.Ex situmeasurements, such as Raman microspectroscopy and cross-sectional transmission electron microscopy, as well as in situ electrical measurements reveal the occurrence of phase transformations in all relaxed a-Si films. The preferred deformation mode of unrelaxed a-Si is plastic flow, only under certain high load conditions can this state of a-Si be forced to transform. In situ electrical measurements have revealed more detail of the transformation process during both loading and unloading. We have used ELASTICA simulations to obtain estimates of the depth of the metallic phase as a function of load, and good agreement is found with the experiment. On unloading, a clear change in electrical conductivity is observed to correlate with a āpop-outā event on load versus penetration curves
Effect of oxygen concentration on nanoindentation-induced phase transformations in ion-implanted amorphous silicon
The effect of the local oxygen concentration in ion-implanted amorphous Si (a-Si) on nanoindentation-inducedphase transformations has been investigated. Implantation of oxygen into the a-Sifilms has been used to controllably introduce an approximately constant concentration of oxygen, ranging from ā¼10Ā¹āø to ā¼10Ā²Ā¹ācmā»Ā³, over the depth range of the phase transformed zones. Nanoindentation was performed under conditions that ensure a phase transformed zone composed completely of Si-III/XII in the nominally oxygen-free a-Si. The effect of the local oxygen concentration has been investigated by analysis of the unloading curves, Raman microspectroscopy, and cross-sectional transmission electron microscopy (XTEM). The formation of Si-III/XII is suppressed with increasing oxygen concentration, favoring a greater volume of a-Si within the zones. The Raman microspectroscopy and XTEM verify that the volume of Si-III/XII decreases with increasing O concentration. With the smaller volumes of Si-III/XII, the pop-out normally observed on load versus penetration depth curves during unloading decreases in magnitude, becoming more kinklike and is barely discernable at high concentrations of oxygen. The probability of forming any high pressure phases is reduced from 1 to ā¼0.1 for a concentration of 10Ā²Ā¹ācmā»Ā³. We suggest that the bonding of O with Si reduces the formation of Si-III/XII during unloading through a similar mechanism to that of oxygen-retarded solid phase crystallization of a-Si.This project is funded by the Australian Research Council
and WRiota Pty Ltd
Nitrate uptake across biomes and the influence of elemental stoichiometry: A new look at LINX II
Considering recent increases in anthropogenic N loading, it is essential to identify the controls on N removal and retention in aquatic ecosystems because the fate of N has consequences for water quality in streams and downstream ecosystems. Biological uptake of nitrate (NO3ā) is a major pathway by which N is removed from these ecosystems. Here we used data from the second Lotic Intersite Nitrogen eXperiment (LINX II) in a multivariate analysis to identify the primary drivers of variation in NO3ā uptake velocity among biomes. Across 69 study watersheds in North America, dissolved organic carbon:NO3ā ratios and photosynthetically active radiation were identified as the two most important predictor variables in explaining NO3ā uptake velocity. However, within a specific biome the predictor variables of NO3ā uptake velocity varied and included various physical, chemical, and biological attributes. Our analysis demonstrates the broad control of elemental stoichiometry on NO3ā uptake velocity as well as the importance of biome-specific predictors. Understanding this spatial variation has important implications for biome-specific watershed management and the downstream export of NO3ā, as well as for development of spatially explicit global models that describe N dynamics in streams and rivers
Back pocket learning ā enabling ādigital nativesā to use smart devices to ensure understanding of the threshold concepts of journalism
Students can sort stream bugs and change watershed management: a case study from Shinglemill Creek, Vashon Island
Building on 7 previous years of data collected by King County and available on the Puget Sound Stream Benthos website, Vashon Nature Center LLC, worked with King County Groundwater Protection Committee, and local middle and high school students to solve the mystery: why does Shinglemill Creek have low B-IBI scores? Testing the hypothesis that erosion may be affecting stream scores, scientists from VNC took aquatic invertebrate samples in two tributaries of Shinglemill Creekāone tributary with high erosion and landslide activity and one with very little erosion. With the help of 6 expert scientists, over 100 students sorted samples to order, calculated a rough B-IBI score, and explored the samples for differences in the invertebrate communities. There were some signs of impacts due to erosion. However, surprisingly, students found a large difference in mayfly richness and composition between the two tributaries leading to the discovery that one tributary drained Ā¼ of downtown Vashon (including a parking lot popular for student held car washes) and that low mayfly richness could indicate impact from heavy metal run-off. Students presented their findings to the KCGWPC and instigated a cascade of management discussions and actions the first of which is purchasing car wash kits to filter water before it is released to Shinglemill Creek. With the right level of support, students thrive when presented with real life science problems and can make a difference in watershed management
Charge Orbits of Extremal Black Holes in Five Dimensional Supergravity
We derive the U-duality charge orbits, as well as the related moduli spaces,
of "large" and "small" extremal black holes in non-maximal ungauged
Maxwell-Einstein supergravities with symmetric scalar manifolds in d=5
space-time dimensions. The stabilizer groups of the various classes of orbits
are obtained by determining and solving suitable U-invariant sets of
constraints, both in "bare" and "dressed" charges bases, with various methods.
After a general treatment of attractors in real special geometry (also
considering non-symmetric cases), the N=2 "magic" theories, as well as the N=2
Jordan symmetric sequence, are analyzed in detail. Finally, the half-maximal
(N=4) matter-coupled supergravity is also studied in this context.Comment: 1+63 pages, 6 Table
Habitat structure and alarm call dialects in Gunnison\u27s prairie dog (Cynomys gunnisoni)
We examined the relationship between habitat structure and alarm call characteristics in six colonies of Gunnisonās prairie dogs (Cynomys gunnisoni) near Flagstaff, Arizona, before and after a mid-summer vegetation change. We found significant differences in alarm call characteristics between colonies, confirming the existence of alarm call dialects. Differences in frequency components but not temporal components of calls were associated with differences in habitat structure. Playback experiments revealed that differences in alarm call structure affected acoustic transmission of calls through the local habitat. Thus, we identify habitat structure as one factor that may contribute to alarm call differences between colonies of Gunnisonās prairie dogs. Relationships between call characteristics and habitat structure changed over seasons. Playback experiments suggested that this changing relationship could reflect a change in the purpose of the alarm call between early and late summer. Some components of alarm calls seem tailored for attenuation over short distances in the early summer but for long-distance transmission at summerās end. These differences might arise because pups stay close to their natal burrows in the early summer and disperse throughout a colony in late summer. Alternatively, these differences in alarm call transmission between seasons could be caused by the increase in vegetation in the mid-summer. At the end of the summer prairie dogs could be more dependent on long-distance antipredator calls to offset the loss of visibility caused by the increase in vegetation in the late summe
Awareness On Recent Trends of Global Climate Change
Climate change is defined as a change in the statistical properties of meteorological variables, which
are considered over a long period of time, regardless of the cause. Modern climate change is mainly
dominated by human influences, which is now large enough to exceed the bounds of natural
variability. The main sources of global climate change are human induced changes in the atmospheric
composition. Changes to the climate system is observed at a global scale through measurement of
temperature at the surface in the middle of the atmosphere, increased sea level, increased sea surface
temperature, increased ocean heat content and water vapour in the atmosphere. The decrease in polar
ice sheet, decreased global sea ice content, and the net decrease in glacier volumes were all observed.
The aim of the study is to assess the recent trends of global climate change & create awareness among
the public based on the topic. A questionnaire comprising 15 questions was circulated among 100
participants with the aid of an online survey platform. The data collection was performed using
Google forms. The statistical analysis was done using SPSS software. When inquired about the
awareness of the risks of global warming, 99% of the participants responded positively. It was
observed that, according to the participantsā opinion, global climate change is too late to be prevented
or reduced. 80% of the participants believe that a technological breakthrough would influence climate
change and global warming rates. The participants of the survey were questioned whether global
warming was linked to extreme weather events like hurricanes et cetera, and 96% of the participants
responded positively. When they were questioned about their awareness and impacts of global
climate change on the future, the majority responded that it would result in rise in sea levels, as well
as a rise in global temperature. The recent trends of global climate change was studied, surveyed and
demonstrated that this climate change has a vast impact on the future. It must be reduced to
maximum to avoid complex circumstances in the future
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