1,835 research outputs found
Effect of Pt impurities on the magnetocrystalline anisotropy of hcp Co: a first-principles study
In terms of the fully relativistic screened Korringa-Kohn-Rostoker method we
investigate the variation in the magnetocrystalline anisotropy energy (MAE) of
hexagonal close-packed cobalt with the addition of platinum impurities. In
particular, we perform calculations on a bulk cobalt system in which one of the
atomic layers contains a fractional, substitutional platinum impurity. Our
calculations show that at small concentrations of platinum the MAE is reduced,
while at larger concentrations the MAE is enhanced. This change of the MAE can
be attributed to an interplay between on-site Pt MAE contributions and induced
MAE contributions on the Co sites. The latter ones are subject to pronounced,
long-ranged Friedel-oscillations that can lead to significant size effects in
the experimental determination of the MAE of nano-sized samples.Comment: 16 page
Dynamic Response of a fast near infra-red Mueller matrix ellipsometer
The dynamic response of a near infrared Ferroelectric Liquid Crystal based
Mueller matrix ellipsometer (NIR FLC-MME) is presented. A time dependent
simulation model, using the measured time response of the individual FLCs, is
used to describe the measured temporal response. Furthermore, the impulse
response of the detector and the pre-amplifier is characterized and included in
the simulation model. The measured time-dependent intensity response of the MME
is reproduced in simulations, and it is concluded that the switching time of
the FLCs is the limiting factor for the Mueller matrix measurement time of the
FLC-based MME. Based on measurements and simulations our FLC based NIR-MME
system is estimated to operate at the maximum speed of approximately 16 ms per
Mueller matrix measurement. The FLC-MME may be operated several times faster,
since the switching time of the crystals depends on the individual crystal
being switched, and to what state it is switched. As a demonstration, the
measured temporal response of the Mueller matrix and the retardance of a thick
liquid crystal variable retarder upon changing state is demonstrated.Comment: to be published in Journal of Modern Optics 20 pages, 6 figure
Effects of composition and chemical disorder on the magnetocrystalline anisotropy of Fe_{x}Pt_{1-x} alloys
We perform first principles calculations of the magnetocrystalline anisotropy
energy (MAE) of the L1_{0}-like Fe_{x}Pt_{1-x} samples studied experimentally
by Barmak and co-workers in [J. Appl. Phys. 98 (2005) 033904]. The variation of
composition and long-range chemical order in the samples was studied in terms
of the coherent potential approximation. In accordance with experimental
observations, we find that, in the presence of long-range chemical disorder,
Fe-rich samples exhibit a larger MAE than stoichiometric FePt. By considering
the site- and species-resolved contributions to the MAE, we infer that the MAE
is primarily a function of the degree of completeness of the nominal Fe layers
in the L1_{0} FePt structure.Comment: 4 pages, 4 figure
Ab Initio Calculations of the Magnetic Properties of Bimetallic Alloys
Magnetic recording technology is ubiquitous in the modern world and constitutes a corner stone of current research and development. Recent inventions such as heat-assisted magnetic recording and exchange-coupled media has focused magnetic recording research towards alloys exhibiting strong magnetocrystalline anisotropies. In this thesis, we investigate, from first principles using the screened Korringa-Kohn-Rostoker method, the effect of a range of compositional and microstructural defects and features upon the magnetocrystalline anisotropy energy (MAE) of FePt and CoPt alloys. We show that localised Pt alloying affects the MAE of bulk Co primarily through the Pt-induced effects on the Co sites. We demonstrate that stacking faults often reduce the Co MAE and that the effect of composite stacking faults upon the MAE is not necessarily additive, but synergistic. By varying the unit cell geometry and the compositional parameters of FePt, we show that the formation of complete Fe layers is, generally, the dominant factor in maintaining a large MAE. We investigate the magnetic properties (spin moments, magnetocrystalline anisotropy and magnetic exchange) across an Fe/FePt/Fe multi-layer and show that the effective exchange exhibits a strong reduction at the Fe/FePt interfaces and that the MAE of the whole multilayer system is very slightly reduced by the presence of the Fe/FePt interfaces. Across all systems, we observe that localised features such as stacking faults, interfaces and localised alloying incur relatively long-ranged spatial oscillations in the MAE, which may, in turn, cause significant finite-size effects on the nano-scale
Magnetic anisotropy of FePt: effect of lattice distortion and chemical disorder
We perform first principles calculations of the magnetocrystalline anisotropy
energy in the five L10 FePt samples studied experimentally by Ding et al. [J.
App. Phys. 97, 10H303 (2005)]. The effect of temperature-induced spin
fluctuations is estimated by scaling the MAE down according to previous
Langevin dynamics simulations. Including chemical disorder as given in
experiment, the experimental correlation between MAE and lattice mismatch is
qualitatively well reproduced. Moreover we determine the chemical order
parameters that reproduce exactly the experimental MAE of each sample. We
conclude that the MAE is determined by the chemical disorder rather than by
lattice distortion.Comment: 5 pages, 3 figure
Hybrid copula mixed models for combining case-control and cohort studies in meta-analysis of diagnostic tests
Copula mixed models for trivariate (or bivariate) meta-analysis of diagnostic test accuracy studies accounting (or not) for disease prevalence have been proposed in the biostatistics literature to synthesize information. However, many systematic reviews often include case-control and cohort studies, so one can either focus on the bivariate meta-analysis of the case-control studies or the trivariate meta-analysis of the cohort studies, as only the latter contains information on disease prevalence. In order to remedy this situation of wasting data we propose a hybrid copula mixed model via a combination of the bivariate and trivariate copula mixed model for the data from the case-control studies and cohort studies, respectively. Hence, this hybrid model can account for study design and also due to its generality can deal with dependence in the joint tails. We apply the proposed hybrid copula mixed model to a review of the performance of contemporary diagnostic imaging modalities for detecting metastases in patients with melanoma
Lateral thermokarst patterns in permafrost peat plateaus in northern Norway
Subarctic peatlands underlain by permafrost contain significant amounts of organic carbon. Our ability to quantify the evolution of such permafrost landscapes in numerical models is critical for providing robust predictions of the environmental and climatic changes to come. Yet, the accuracy of large-scale predictions has so far been hampered by small-scale physical processes that create a high spatial variability of thermal surface conditions, affecting the ground thermal regime and thus permafrost degradation patterns. In this regard, a better understanding of the small-scale interplay between microtopography and lateral fluxes of heat, water and snow can be achieved by field monitoring and process-based numerical modeling. Here, we quantify the topographic changes of the Šuoššjávri peat plateau (northern Norway) over a three-year period using drone-based repeat high-resolution photogrammetry. Our results show thermokarst degradation is concentrated on the edges of the plateau, representing 77 % of observed subsidence, while most of the inner plateau surface exhibits no detectable subsidence. Based on detailed investigation of eight zones of the plateau edge, we show that this edge degradation corresponds to an annual volume change of 0.13±0.07 m3 yr−1 per meter of retreating edge (orthogonal to the retreat direction).
Using the CryoGrid3 land surface model, we show that these degradation patterns can be reproduced in a modeling framework that implements lateral redistribution of snow, subsurface water and heat, as well as ground subsidence due to melting of excess ice. By performing a sensitivity test for snow depths on the plateau under steady-state climate forcing, we obtain a threshold behavior for the start of edge degradation. Small snow depth variations (from 0 to 30 cm) result in highly different degradation behavior, from stability to fast degradation. For plateau snow depths in the range of field measurements, the simulated annual volume changes are broadly in agreement with the results of the drone survey. As snow depths are clearly correlated with ground surface temperatures, our results indicate that the approach can potentially be used to simulate climate-driven dynamics of edge degradation observed at our study site and other peat plateaus worldwide. Thus, the model approach represents a first step towards simulating climate-driven landscape development through thermokarst in permafrost peatlands
Confronting Grand Challenges in Environmental Fluid Dynamics
Environmental fluid dynamics underlies a wealth of natural, industrial and, by extension, societal challenges. In the coming decades, as we strive towards a more sustainable planet, there are a wide range of grand challenge problems that need to be tackled, ranging from fundamental advances in understanding and modeling of stratified turbulence and consequent mixing, to applied studies of pollution transport in the ocean, atmosphere and urban environments. A workshop was organized in the Les Houches School of Physics in France in January 2019 with the objective of gathering leading figures in the field to produce a road map for the scientific community. Five subject areas were addressed: multiphase flow, stratified flow, ocean transport, atmospheric and urban transport, and weather and climate prediction. This article summarizes the discussions and outcomes of the meeting, with the intent of providing a resource for the community going forward
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