1,045 research outputs found

    3D numerical simulations of oscillations in solar prominences

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    Oscillations in solar prominences are a frequent phenomenon, and they have been the subject of many studies. A full understanding of the mechanisms that drive them and their attenuation has not been reached yet. We numerically investigate the periodicity and damping of transverse and longitudinal oscillations in a 3D model of a curtain-shaped prominence. We carried out a set of numerical simulations of vertical, transverse and longitudinal oscillations with the high-order finite-difference Pencil Code. We solved the ideal magnetohydrodynamic (MHD) equations for a wide range of parameters, including the width and density of the prominence, and the magnetic field strength (B) of the solar corona. We studied the periodicity and attenuation of the induced oscillations. We found that longitudinal oscillations can be fit with the pendulum model, whose restoring force is the field aligned component of gravity, but other mechanisms such as pressure gradients may contribute to the movement. On the other hand, transverse oscillations are subject to magnetic forces. The analysis of the parametric survey shows, in agreement with observational studies, that the oscillation period (P) increases with the prominence width. For transverse oscillations we obtained that P increases with density and decreases with B. For longitudinal oscillations we also found that P increases with density, but there are no variations with B. The attenuation of transverse oscillations was investigated by analysing the velocity distribution and computing the Alfv\'en continuum modes. We conclude that resonant absorption is the mean cause. Damping of longitudinal oscillations is due to some kind of shear numerical viscosity

    Dispersion phenomena in microchannels: Transition from Taylor-Aris to convection-dominated regime

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    This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Brunel University, West London, UK. The conference was organised by Brunel University and supported by the Institution of Mechanical Engineers, IPEM, the Italian Union of Thermofluid dynamics, the Process Intensification Network, HEXAG - the Heat Exchange Action Group and the Institute of Mathematics and its Applications.This article addresses the qualitative and quantitative properties of solute transport and dispersion in microchannel of finite-length. As the Peclet number increases a transition from the Taylor-Aris to a new regime referred as convection dominated dispersion occurs, which is controlled by the velocity profile near the stagnation points at the solid walls. The properties characterizing dispersion dominated regime can be used for analytical purposes as a chromatographic-based velocimetry and for determining the eventual occurrence of slip at the solid walls of microchannels

    Situation of the Red Kite Milvus milvus in Mallorca

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    Dispersion at low and high peclet numbers in finite-length patterned microchannels

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    The present work focuses on laminar dispersion of solutes in finite-length patterned microtubes. Dispersion is strongly influenced by axial flow variations caused by patterns of periodic pillars and gaps in the flow direction. We focus on the Cassie Baxter state where the gaps are filled with with air pockets and thus free-slip boundary conditions apply at the liquid-air interface. The analysis of dispersion in a finite-length microtube is approached by considering the temporal moments of solute concentration. With this approach it is possible to investigate the dispersion properties at low and high Peclet numbers and therefore how the patterned structure of the microtube influences both the Taylor-Aris and Convection-dominated dispersion regimes. Numerical results for the velocity field and for the moment hierarchy are obtained by means of Finite Element Method (Comsol 3.5).Papers presented to the 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Costa de Sol, Spain on 11-13 July 2016

    Combining electrostatic, hindrance and diffusive effects for predicting particle transport and separation efficiency in deterministic lateral displacement microfluidic devices

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    Microfluidic separators based on Deterministic Lateral Displacement (DLD) constitute a promising technique for the label-free detection and separation of mesoscopic objects of biological interest, ranging from cells to exosomes. Owing to the simultaneous presence of different forces contributing to particle motion, a feasible theoretical approach for interpreting and anticipating the performance of DLD devices is yet to be developed. By combining the results of a recent study on electrostatic effects in DLD devices with an advection-diffusion model previously developed by our group, we here propose a fully predictive approach (i.e., ideally devoid of adjustable parameters) that includes the main physically relevant effects governing particle transport on the one hand, and that is amenable to numerical treatment at affordable computational expenses on the other. The approach proposed, based on ensemble statistics of stochastic particle trajectories, is validated by comparing/contrasting model predictions to available experimental data encompassing different particle dimensions. The comparison suggests that at low/moderate values of the flowrate the approach can yield an accurate prediction of the separation performance, thus making it a promising tool for designing device geometries and operating conditions in nanoscale applications of the DLD technique

    Fractionation of a three-particle mixture by Brownian sieving hydrodynamic chromatography

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    Particles ranging in size from a few nanometers (exosomes or viruses) to a few micrometers (bacteria or red blood cells) can be sorted using a size-based separation process. One of the simplest techniques is provided by hydrodynamic chromatography (HDC) which typically requires long channels to achieve adequate resolution. A new separation mechanism based on a Brownian sieving effect coupled with HDC has recently been proposed to overcome these limitations. An efficiency improvement of up to 2000 % has been predicted for a two-size mixture. The aim of this work is to study and optimize a modified geometry useful for obtaining the simultaneous separation of a three-size diluted suspension. The results suggest a significant performance improvement, up to 3000 %, over the standard HDC

    Gravitational instability of solar prominence threads I. Curved magnetic fields without dips

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    Prominence threads are dense and cold structures lying on curved magnetic fields that can be suspended in the solar atmosphere against gravity. The gravitational stability of threads, in the absence of non-ideal effects, is comprehensively investigated in the present work by means of an elementary but effective model. Based on purely hydrodynamic equations in one spatial dimension and applying line-tying conditions at the footpoints of the magnetic field lines, we derive analytical expressions for the different feasible equilibria and the corresponding frequencies of oscillation. We find that the system allows for stable and unstable equilibrium solutions subject to the initial position of the thread, its density contrast and length, and the total length of the magnetic field lines. The transition between the two types of solutions is produced at specific bifurcation points that have been determined analytically in some particular cases. When the thread is initially at the top of the concave magnetic field, that is at the apex, we find a supercritical pitchfork bifurcation, while for a shifted initial thread position with respect to this point the symmetry is broken and the system is characterised by an S-shaped bifurcation. The plain results presented in this paper shed new light on the behaviour of threads in curved magnetic fields under the presence of gravity and help to interpret more complex numerical magnetohydrodynamics (MHD) simulations about similar structures.Comment: 13 pages, 9 figure

    Prefrontal cortex-driven dopamine signals in the striatum show unique spatial and pharmacological properties

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    Dopamine (DA) signals in the striatum are critical for a variety of vital processes, including motivation, motor learning, and reinforcement learning. Striatal DA signals can be evoked by direct activation of inputs from midbrain DA neurons (DANs) as well as cortical and thalamic inputs to the striatum. In this study, we show that in vivo optogenetic stimulation of prelimbic (PrL) and infralimbic (IL) cortical afferents to the striatum triggers an increase in extracellular DA concentration, which coincides with elevation of striatal acetylcholine (ACh) levels. This increase is blocked by a nicotinic ACh receptor (nAChR) antagonist. Using single or dual optogenetic stimulation in brain slices from male and female mice, we compared the properties of these PrL/IL-evoked DA signals with those evoked by stimulation from midbrain DAN axonal projections. PrL/IL-evoked DA signals are undistinguishable from DAN evoked DA signals in their amplitudes and electrochemical properties. However, PrL/IL-evoked DA signals are spatially restricted and preferentially recorded in the dorsomedial striatum. PrL/IL-evoked DA signals also differ in their pharmacological properties, requiring activation of glutamate and nicotinic ACh receptors. Thus, both in vivo and in vitro results indicate that cortical evoked DA signals rely on recruitment of cholinergic interneurons, which renders DA signals less able to summate during trains of stimulation and more sensitive to both cholinergic drugs and temperature. In conclusion, cortical and midbrain inputs to the striatum evoke DA signals with unique spatial and pharmacological properties that likely shape their functional roles and behavioral relevance.Fil: Adrover, Martín Federico. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina. National Institutes of Health; Estados UnidosFil: Shin, Jung Hoon. National Institutes of Health; Estados UnidosFil: Quiroz, Cesar. National Institutes of Health; Estados UnidosFil: Ferré, Sergi. National Institutes of Health; Estados UnidosFil: Lemos, Julia C.. National Institutes of Health; Estados UnidosFil: Alvarez, Veronica A.. National Institutes of Health; Estados Unido

    Hacia una agricultura alternativa. El desarrollo de la agricultura ecolĂłgica en Mallorca en el marco de la transiciĂłn postproductivista

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    The development of the ecological agriculture in the western world is one of the arguments used like empirical prove of hardness of the post-productivist transition. The growth of ecological agriculture of Europe and Spain in the 90's is due to different support politics and help subsides hold by the PAC. Thea uthors lokk for demostrate that the expansion of ecological agriculture in Majorca has been quiet artificial, it means, its increase has been realized whith the subsides support. In order to this demostration, the authors track the territorial distribution path of ecological agriculture in Majorca and they draw a farmer profile that practices this labour.El desarrollo de la agricultura ecológica en el mundo occidental es uno de los argumentos utilizados como prueba empírica de la solidez de la Transición Postproductivista. El crecimiento de la agricultura ecológica en Europa y en España en la década de los noventa se debe, en gran parte, a las diferentes medidas de apoyo y de subsidios de ayuda impulsados a través de la PAC. Los autores pretenden demostrar que la expansión de la agricultura ecológica en Mallorca ha sido algo artificial, es decir, su incremento se ha realizado también a golpe de subvención. Para ello, rastrean los patrones de distribución territorial de la agricultura ecológica en Mallorca y dibujan el perfil del agricultor que practica dicha modalidad agrícola
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