Search results for "Magnetohydrodynamic"

showing 10 items of 227 documents

Contribution of phase-mixing of Alfvén waves to coronal heating in multi-harmonic loop oscillations

2018

This research has received funding from the Science and Technology Facilities Council (UK) through the consolidated grant ST/N000609/1 and the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program ( grant agreement No. 647214). This work is supported by the European Research Council under the SeismoSun Research Project No. 321141 (DJP). This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No 724326). This work used the DiRAC Data Centric system at Durham University, operated by the Institute for Computational Cosmology on behalf o…

Magnetohydrodynamics (MHD)corona [Sun]010504 meteorology & atmospheric sciencesAstrophysics7. Clean energy01 natural sciencesCoronal heatingQB AstronomyRESONANT ABSORPTIONAstrophysics::Solar and Stellar AstrophysicsQASun: magnetic fields010303 astronomy & astrophysicsQCQBSun: helioseismologymedia_commonPhysicsoscillations [Sun]European researchAstrophysics::Instrumentation and Methods for AstrophysicsKINK OSCILLATIONSmagnetic fields [Sun]MHD WAVESAstrophysics - Solar and Stellar AstrophysicsPhysical SciencesPhysics::Space Physicsatmosphere [Sun]INSTABILITYDirac (software)NDASTRACELibrary scienceAstronomy & AstrophysicsComputer Science::Digital Librariesmagnetohydrodynamics (MHD)0103 physical sciencesmedia_common.cataloged_instancewavesQA Mathematicshelioseismology [Sun]Sun: oscillationsEuropean unionPhase mixing0105 earth and related environmental sciencesScience & TechnologySun: coronaSEISMOLOGYAstronomy and AstrophysicsPhysics::History of PhysicsQC PhysicsSpace and Planetary ScienceWavesTRANSVERSE OSCILLATIONSAstronomy & Astrophysics
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Simulating AIA observations of a flux rope ejection

2014

D.H.M. would like to thank STFC, the Leverhulme Trust and the European Commission’s Seventh Framework Programme (FP7/2007-2013) for their financial support. P.P. would like to thank the European Commission’s Seventh Framework Programme (FP7/2007-2013) under grant agreement SWIFF (project 263340, http://www.swiff.eu) and STFC for financial support. These results were obtained in the framework of the projects GOA/2009-009 (KU Leuven), G.0729.11 (FWO-Vlaanderen) and C 90347 (ESA Prodex 9). The research leading to these results has also received funding from the European Commission’s Seventh Framework Programme (FP7/2007-2013) under the grant agreements SOLSPANET (project No. 269299, http:// ww…

Magnetohydrodynamics (MHD)corona [Sun]Sun: coronal mass ejections (CMEs)FOS: Physical sciencesAstrophysicsmagnetohydrodynamics (MHD)7. Clean energyProminencesObservatoryRadiative transferQB AstronomyAstrophysics::Solar and Stellar AstrophysicsQA MathematicsQASun: magnetic fieldsSolar and Stellar Astrophysics (astro-ph.SR)QBPhysicsUV radiation [Sun]Line-of-sightSun: coronaAstronomy and AstrophysicsPlasmaSun: UV radiationCoronacoronal mass ejections (CMEs) [Sun]Magnetic fluxSun: filamentsAstrophysics - Solar and Stellar Astrophysicsmagnetic fields [Sun]13. Climate actionSpace and Planetary ScienceExtreme ultravioletPhysics::Space Physicsfilaments prominences [Sun]Rope
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Future capabilities of CME polarimetric 3D reconstructions with the METIS instrument: A numerical test

2015

D.H.M. would like to thank STFC and the Leverhulme Trust for their financial support. P.P. would like to thank STFC and the Leverhulme Trust. The computational work for this paper was carried out on the joint STFC and SFC (SRIF) funded cluster at the University of St Andrews (Scotland, UK). Context. Understanding the 3D structure of coronal mass ejections (CMEs) is crucial for understanding the nature and origin of solar eruptions. However, owing to the optical thinness of the solar corona we can only observe the line of sight integrated emission. As a consequence the resulting projection effects hide the true 3D structure of CMEs. To derive information on the 3D structure of CMEs from whit…

Magnetohydrodynamics (MHD)corona [Sun]Sun: coronal mass ejections (CMEs)Sun: filaments prominencesNDASFOS: Physical sciencesLibrary scienceAstrophysicspolarimetric [Techniques]MetisQB AstronomyAstrophysics::Solar and Stellar AstrophysicsNumerical testsQCSolar and Stellar Astrophysics (astro-ph.SR)QBPhysicsSun: coronaTechniques: polarimetricAstronomy and Astrophysicscoronal mass ejections (CMEs) [Sun]QC PhysicsAstrophysics - Solar and Stellar AstrophysicsSpace and Planetary SciencePhysics::Space Physicsfilaments prominences [Sun]
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Profesors Gunārs Sermons: biobibliogrāfiskais rādītājs

1994

Biobibliogrāfiskajā rādītājā ietverti tehnisko zinātņu doktora, profesora Gunāra Sermona publicētie darbi no 1958. līdz 1994.gadam, kā ari literatūra par viņu.

Magnetohydrodynamics - bibliographical indexЭлектромагнетизм - библиографический указательProfessors of the Latvian University:NATURAL SCIENCES::Physics [Research Subject Categories]Fizika - bibliogrāfiskais rādītājsElectromagnetism - bibliographical indexBiobibliogrāfiskie rādītājiMagnetohidrodinamika - bibliogrāfiskais rādītājsHistory of the University of LatviaМагнитогидродинамика - библиографический указательFizikas zinātņu profesori Latvijas UnivesitātēLatvijas Universitātes vēstureLatvijas Universitātes profesoriElektromagnētisms - bibliogrāfiskais rādītājs
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Исследование некоторых видов неоднородных МГД-течений в применении к задачам управления потоками жидкого металла

1973

Magnetohydrodynamics:NATURAL SCIENCES::Physics::Condensed matter physics::Magnetism [Research Subject Categories]Жидкие металлыМагнитогидродинамикаMagnetohidrodinamikaЭлектромагнитная гидродинамикаМагнитогидродинамические теченияŠķidrie metāli
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High Performance Computing on the COMETA Grid Infrastructure

2008

We present the High Performance Computing (HPC) projects jointly developed at the INAF - Osservatorio Astronomico di Palermo and at the DSFA - Universita` di Palermo which benefits of the Grid infrastructure of COMETA. We have contributed to setup the infrastructure in order to run HPC applications on the Grid. We report on our experience regarding to porting HPC applications to the Grid and to the first HPC simulations performed. The most demanding simulations describe the interaction of a magnetized supernova shock wave with an interstellar gas cloud. We discuss the resources required for the simulations, the performance and the scalability of our code on the Grid, and present first resul…

MagnetohydrodynamicsSettore FIS/05 - Astronomia E AstrofisicaHigh Performance ComputingHydrodynamicsAstrophysics
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Influence of a Magnetic Field on Liquid Metal Free Convection in a Differentially Heated Cubic Enclosure

2002

Natural ConvectionEnclosureMagnetohydrodynamicCFDLiquid MetalSettore ING-IND/19 - Impianti Nucleari
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Numerical Simulation of MHD Fully Developed Buoyant Flow at Low Pr: “Direct” vs. “Ad hoc” Treatment of the Hartmann Layers

2001

Natural ConvectionHartmann LayerMagnetohydrodynamicCFDSettore ING-IND/19 - Impianti Nucleari
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Resistive dissipative magnetohydrodynamics from the Boltzmann-Vlasov equation

2019

We derive the equations of motion of relativistic, resistive, second-order dissipative magnetohydrodynamics from the Boltzmann-Vlasov equation using the method of moments. We thus extend our previous work [Phys. Rev. D 98, 076009 (2018)], where we only considered the non-resistive limit, to the case of finite electric conductivity. This requires keeping terms proportional to the electric field $E^\mu$ in the equations of motions and leads to new transport coefficients due to the coupling of the electric field to dissipative quantities. We also show that the Navier-Stokes limit of the charge-diffusion current corresponds to Ohm's law, while the coefficients of electrical conductivity and cha…

Nuclear TheoryFOS: Physical sciencesfluid dynamicsplasmafysiikka01 natural sciences114 Physical sciencesNuclear Theory (nucl-th)High Energy Physics - Phenomenology (hep-ph)Electric field0103 physical sciencesTHERMODYNAMICS010306 general physicsPhysicsta114010308 nuclear & particles physicsplasma physicsVlasov equationFluid Dynamics (physics.flu-dyn)Equations of motionCharge (physics)Physics - Fluid DynamicsDissipationBoltzmann equationPhysics - Plasma PhysicsPlasma Physics (physics.plasm-ph)High Energy Physics - PhenomenologyQuantum electrodynamicsDissipative systemMagnetohydrodynamicsmagnetohydrodynamics
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Nonresistive dissipative magnetohydrodynamics from the Boltzmann equation in the 14-moment approximation

2018

We derive the equations of motion of relativistic, non-resistive, second-order dissipative magnetohydrodynamics from the Boltzmann equation using the method of moments. We assume the fluid to be composed of a single type of point-like particles with vanishing dipole moment or spin, so that the fluid has vanishing magnetization and polarization. In a first approximation, we assume the fluid to be non-resistive, which allows to express the electric field in terms of the magnetic field. We derive equations of motion for the irreducible moments of the deviation of the single-particle distribution function from local thermodynamical equilibrium. We analyze the Navier-Stokes limit of these equati…

Nuclear TheoryTRANSIENT RELATIVISTIC THERMODYNAMICSFOS: Physical scienceshiukkasfysiikkaHEAVY-ION COLLISIONSmagneettikentätSystem of linear equations114 Physical sciences01 natural sciencesMAGNETIC-FIELDSBoltzmann equationNuclear Theory (nucl-th)HYDRODYNAMICSHigh Energy Physics - Phenomenology (hep-ph)FLUIDS0103 physical sciences010306 general physicsKINETIC-THEORYnestefysiikkaPhysicsta114010308 nuclear & particles physicsFluid Dynamics (physics.flu-dyn)Equations of motionPhysics - Fluid DynamicsBoltzmann equationMagnetic fieldnonresistivenessHigh Energy Physics - PhenomenologyDipoleDistribution functionClassical mechanicsDissipative systemMagnetohydrodynamicsmagnetohydrodynamicsPhysical Review D
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