1,104 research outputs found
Defects and multistability in eutectic solidification patterns
We use three-dimensional phase-field simulations to investigate the dynamics
of the two-phase composite patterns formed upon during solidification of
eutectic alloys. Besides the spatially periodic lamellar and rod patterns that
have been widely studied, we find that there is a large number of additional
steady-state patterns which exhibit stable defects. The defect density can be
so high that the pattern is completely disordered, and that the distinction
between lamellar and rod patterns is blurred. As a consequence, the transition
from lamellae to rods is not sharp, but extends over a finite range of
compositions and exhibits strong hysteresis. Our findings are in good agreement
with experiments.Comment: 6 pages, 8 figure
Pattern formation in inclined layer convection
We report experiments on thermally driven convection in an inclined layer of
large aspect ratio in a fluid of Prandtl number . We observed
a number of new nonlinear, mostly spatio-temporally chaotic, states. At small
angles of inclination we found longitudinal rolls, subharmonic oscillations,
Busse oscillations, undulation chaos, and crawling rolls. At larger angles, in
the vicinity of the transition from buoyancy- to shear-driven instability, we
observed drifting transverse rolls, localized bursts, and drifting bimodals.
For angles past vertical, when heated from above, we found drifting transverse
rolls and switching diamond panes.Comment: For MPEG movies, see http://milou.msc.cornell.edu/ILCmovie
Lattice Boltzmann simulations of 3D crystal growth: Numerical schemes for a phase-field model with anti-trapping current
A lattice-Boltzmann (LB) scheme, based on the Bhatnagar-Gross-Krook (BGK)
collision rules is developed for a phase-field model of alloy solidification in
order to simulate the growth of dendrites. The solidification of a binary alloy
is considered, taking into account diffusive transport of heat and solute, as
well as the anisotropy of the solid-liquid interfacial free energy. The
anisotropic terms in the phase-field evolution equation, the phenomenological
anti-trapping current (introduced in the solute evolution equation to avoid
spurious solute trapping), and the variation of the solute diffusion
coefficient between phases, make it necessary to modify the equilibrium
distribution functions of the LB scheme with respect to the one used in the
standard method for the solution of advection-diffusion equations. The effects
of grid anisotropy are removed by using the lattices D3Q15 and D3Q19 instead of
D3Q7. The method is validated by direct comparison of the simulation results
with a numerical code that uses the finite-difference method. Simulations are
also carried out for two different anisotropy functions in order to demonstrate
the capability of the method to generate various crystal shapes
Effects of CP-violating phases in supersymmetry
Recent studies about the impact of the CP-violating complex parameters in
supersymmetry on the decays of third generation squarks and about T-odd
asymmetries in neutralino and chargino production and decay are reviewed. The
CP-even branching ratios of the third generation squarks show a pronounced
dependence on the phases of A_t, A_b, mu and M_1 in a large region of the
supersymmetric parameter space. This could have important implications for stop
and sbottom searches and the MSSM parameter determination in future collider
experiments. We have estimated the expected accuracy in the determination of
the parameters by global fits of measured masses, decay branching ratios and
production cross sections. We have found that the parameter A_t can be
determined with an error of 2 - 3%, whereas the error on A_b is likely to be of
the order of 50 - 100%. In addition we have studied CP-odd observables, like
asymmetries based on triple product correlations, which are necessary to
unambiguously establish CP violation. We have analysed these asymmetries in
neutralino and chargino production with subsequent three-body decays at the
International Linear Collider with longitudinally polarised beams in the MSSM
with complex parameters M_1 and mu. The asymmetries, which appear already at
tree-level because of spin correlation between production and decay, can be as
large as 20% and will therefore be an important tool for the search for
CP-violating effects in supersymmetry.Comment: 13 pages, LaTeX, 7 eps figures, uses appolb.cls, presented at the
final meeting of the European Network ``Physics at Colliders'', Montpellier,
September 26 - 27, 200
Percolation-dependent Reaction Rates in the Etching of Disordered Solids
A prototype statistical model for the etching of a random solid is
investigated in order to assess the influence of disorder and temperature on
the dissolution kinetics. At low temperature, the kinetics is dominated by
percolation phenomena, and the percolation threshold determines the global
reaction time. At high temperature, the fluctuations of the reaction rate are
Gaussian, whereas at low temperature they exhibit a power law tail due to
chemical avalanches. This is an example where microscopic disorder directly
induces non-classical chemical kinetics.Comment: Revtex, 4 pages, 5 figure
Remarks on some open problems in phase-field modelling of solidification
International audienceThree different topics in phase-field modelling of solidification are discussed, with particular emphasis on the limitations of the currently available modelling approaches. First, thin-interface limits of two-sided phase-field models are examined, and it is shown that the antitrapping current is in general not sufficient to remove all thin-interface effects. Second, orientation-field models for polycrystalline solidification are analyzed, and it is shown that the standard relaxational equation of motion for the orientation field is incorrect in coherent polycrystalline matter. Third, it is pointed out that the standard procedure of incorporating fluctuations into the phase-field approach cannot be used in a straightforward way for a quantitative description of nucleation
Pheochromocytoma
Pheochromocytoma presents with unusual symptomology and can remain difficult to diagnose. Early detection is paramount along with pre-surgical pharmacological intervention for best outcomes. Decrease manipulation of tumor to avoid additional secretion of catecholamine (Chung et al., 2018). From an anesthesia perspective, pheochromocytomas in patients presents a severe risk to the preservation of life pre, intra, and post-operatively. It remains necessary to prevent hemodynamic instability and to prevent administration of drugs which may elicit hemodynamic instability, since prolonged hemodynamic instability may lead to loss of life or chronic disability (Sonntagbauer et al., 2018)
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