Search results for " Flux"

showing 10 items of 583 documents

Irreversibility of the threshold field for dendritic flux avalanches in superconductors

2010

Hysteretic effects are seen in the upper and lower threshold fields for the appearance of dendritic flux instabilities, first explained in Yurchenko et al. [Phys. Rev. B 76 (2007) 092504], in NbN-films. We have measured the threshold fields at increasing and decreasing applied fields at different temperatures and proposed a mechanism explaining how the hysteresis arises by analyzing the field profiles inside the sample.

SuperconductivityPhysicsField (physics)Condensed matter physicsEnergy Engineering and Power TechnologyFluxCondensed Matter PhysicsInstabilityMagnetic fluxElectronic Optical and Magnetic MaterialsHysteresisLower thresholdCondensed Matter::SuperconductivityElectrical and Electronic EngineeringPhysica C: Superconductivity
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Fluxon dynamics by microwave surface resistance measurements in MgB2

2003

Field-induced variations of the microwave surface resistance, Rs(H), have been investigated in high-density ceramic MgB2. At low temperatures, several peculiarities of the Rs(H) curves cannot be justified in the framework of models reported in the literature. We suggest that they are ascribable to the unconventional vortex structure in MgB2, related to the presence of two gaps. On the contrary, the results near Tc can be accounted for by the Coffey and Clem model, with fluxons moving in the flux-flow regime, provided that the anisotropy of the upper critical field is taken into due account.

SuperconductivityPhysicsFluxonCondensed matter physicsCondensed Matter - SuperconductivityFOS: Physical sciencesEnergy Engineering and Power TechnologyTourbillonMgB2 Microwave surface impedance Fluxon dynamicsCondensed Matter PhysicsMagnetic fluxElectronic Optical and Magnetic MaterialsVortexSuperconductivity (cond-mat.supr-con)Surface conductivityCondensed Matter::SuperconductivityElectrical and Electronic EngineeringAnisotropyCritical fieldPhysica C: Superconductivity
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Thermodynamical derivation of a hydrodynamical model of inhomogeneous superfluid turbulence

2007

In this paper, we build up a thermodynamical model of inhomogeneous superfluid turbulence to describe vortex diffusion in inhomogeneous turbulent tangles, and a coupling between second sound and vortex-density waves. The theory chooses as fundamental fields the density, the velocity, the energy density, the heat flux, and the averaged vortex line length per unit volume. The restrictions on the constitutive quantities are deduced from the entropy principle, using the Liu method of Lagrange multipliers. Field equations are written and the wave propagation is studied with the aim to describe the mutual interactions between the second sound and the vortex tangle.

SuperfluidityPhysicsQuantum fluidEntropy (classical thermodynamics)Classical mechanicsHeat fluxWave propagationTurbulenceSecond soundCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsVortexPhysical Review B
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Land surface processes: description, theoretical approaches, and physical laws underlying their measurements

1991

For more than a decade, evidence has accumulated from climate model experiments that the exchanges of momentum, heat, and moisture at the surface are phenomena that strongly influence the dynamics and thermodynamics of the atmosphere.

Surface (mathematics)010504 meteorology & atmospheric sciencesMoisture[SDV]Life Sciences [q-bio]0207 environmental engineering02 engineering and technology01 natural sciencesPhysics::GeophysicsAtmosphereMomentum[SDV] Life Sciences [q-bio]GeographyHeat flux13. Climate actionLatent heatClimate modelStatistical physics020701 environmental engineeringPhysics::Atmospheric and Oceanic PhysicsComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciencesPhysical law
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Impact of Land Cover Change Induced by a Fire Event on the Surface Energy Fluxes Derived from Remote Sensing

2015

Forest fires affect the natural cycle of the vegetation, and the structure and functioning of ecosystems. As a consequence of defoliation and vegetation mortality, surface energy flux patterns can suffer variations. Remote sensing techniques together with surface energy balance modeling offer the opportunity to explore these changes. In this paper we focus on a Mediterranean forest ecosystem. A fire event occurred in 2001 in Almodovar del Pinar (Spain) affecting a pine and shrub area. A two-source energy balance approach was applied to a set of Landsat 5-TM and Landsat 7-EMT+ images to estimate the surface fluxes in the area. Three post-fire periods were analyzed, six, seven, nine, and 11 y…

Surface Energy FluxesMediterranean climateland cover changeEvapotranspirationved/biologyScienceQved/biology.organism_classification_rank.speciesevapotranspirationEnergy balanceVegetationLand coverAlbedoShrubsurface energy fluxes; forest fire; land cover change; Landsat; evapotranspirationEvapotranspirationForest ecologyGeneral Earth and Planetary SciencesEnvironmental scienceForest FireLand Cover ChangeLandsatsurface energy fluxesforest fireRemote sensingRemote Sensing
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Thermal Flux through a Surface of n-Octane. A Non-equilibrium Molecular Dynamics Study

2004

We show using non-equilibrium molecular dynamics that there is local equilibrium in the surface when a two-phase fluid of n-octane is exposed to a large temperature gradient (10 8 K/m). The surface is defined according to Gibbs, and the transport across the surface is described with non-equilibrium thermodynamics. The structure of the surface in the presence of the gradient is the same as if the interface was in equilibrium, as measured by the variation across the surface of the pressure component that is parallel to the surface. The surface is in local equilibrium by this criterion and because the equation of state for the surface was unaltered by a large heat flux. The surface has a small…

Surface tensionHeat fluxChemistrySurface stressMaterials ChemistryThermodynamicsCapillary surfaceHeat transfer coefficientPhysical and Theoretical ChemistryNucleate boilingSurface energySpecific surface energySurfaces Coatings and FilmsThe Journal of Physical Chemistry B
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Estimation of the spatially distributed surface energy budget for AgriSAR 2006, part I : remote sensing model intercomparison

2011

A number of energy balance models of variable complexity that use remotely sensed boundary conditions for producing spatially distributed maps of surface fluxes have been proposed. Validation typically involves comparing model output to flux tower observations at a handful of sites, and hence there is no way of evaluating the reliability of model output for the remaining pixels comprising a scene. To assess the uncertainty in flux estimation over a remote sensing scene requires one to conduct pixel-by-pixel comparisons of the output. The objective of this paper is to assess whether the simplifications made in a simple model lead to erroneous predictions or deviations from a more complex mod…

Synthetic aperture radarAtmospheric SciencePixelMeteorologyPlanetary boundary layerMETIS-303907Energy balanceAtmospheric modelData modelingremote sensingHeat fluxenergy balance modelRadiative transferEnvironmental scienceComputers in Earth SciencesAgrisarRemote sensingIEEE Journal of selected topics in applied earth observations and remote sensing
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Identification of blanket design points using an integrated multi-physics approach

2017

Abstract The breeding blanket (BB) is one of the key components for a fusion reactor. It is expected to sustain and remove considerable heat loads due to the heat flux coming from the plasma and the nuclear power deposited by the fusion neutrons. In the design of the BB, the engineering requirements of nuclear, material and safety kind are involved. In the European DEMO project, several efforts are dedicated to the development of an integrated simulation-design tool able to perform a multi-physics analysis, allowing the characterisation of BB design points which are consistent from the neutronic, thermal-hydraulic and thermo-mechanical point of view. Furthermore, at Karlsruhe Institute of T…

TechnologyNuclear engineeringDEMO reactorBlanket7. Clean energy01 natural sciences010305 fluids & plasmasCoupling0103 physical sciencesMulti-physics approachGeneral Materials SciencePoint (geometry)Design point010306 general physicsSettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringCouplingRequirements engineeringbusiness.industryMechanical EngineeringNuclear powerFusion powerFinite element methodNuclear Energy and EngineeringHeat fluxBreeding blanketbusinessddc:600Fusion Engineering and Design
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Nitrous oxide fluxes from permafrost regions

2020

This dataset is a synthesis of published nitrous oxide (N2O) fluxes from permafrost-affected soils in Arctic, Antarctic, and Alpine permafrost regions. The data includes mean N2O flux rates measured under field (in situ) conditions and in intact plant-soil systems (mesocosms) under near-field conditions. The dataset further includes explanatory environmental parameters such as meteorological data, soil physical-chemical properties, as well as site and experimental information. Data has been synthesized from published studies (see 'Further details'), and in some cases the authors of published studies have been contacted for additional site-level information. The dataset includes studies publ…

Temperature airNumber of pointsHemeroby/disturbanceannual meanNumber of measurement seasonsTemperature soilDensityArea localityPrecipitationgravimetricmeanNitrateTime in minutesAnalytical methodType of studyReference of dataTemperature air annual meanArea/localitypH soilCarbon Nitrogen ratioYear of observationWater holding capacityOriginal unitSample code/labelReplicatesNitrous oxidepHPermafrost extentThaw depth of active layer meanTemperatureMonthSample code labelZoneWater filled pore space calculatedExperimental treatmentCountryPrecipitation annual meanOrganic carbon soilEarth System ResearchSoil water content gravimetricType of chamberAmmoniumPresence/absenceNitrogenairvolumetricLocationactive layerType of disturbanceSiteVegetation typeWater filled pore spaceSoil water content volumetricSoil water contentin mass nitrous oxidesoilThaw depth of active layercalculatedbulkmaximumLONGITUDEOrganic carbonEcosystemPublication of dataPresence absenceSoil organic matterEvent labelThaw depth of active layer maximumNumber of measurementsHemeroby disturbanceNitrous oxide flux in mass nitrous oxideCarbon/Nitrogen ratiofluxOriginal valueLATITUDEDayNitrogen soilSoil moistureDensity active layer bulk
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Thermoconvective instability and local thermal non-equilibrium in a porous layer with isoflux-isothermal boundary conditions

2014

The effects of lack of local thermal equilibrium between the solid phase and the fluid phase are taken into account for the convective stability analysis of a horizontal porous layer. The layer is bounded by a pair of plane parallel walls which are impermeable and such that the lower wall is subject to a uniform flux heating, while the upper wall is isothermal. The local thermal non-equilibrium is modelled through a two-temperature formulation of the energy exchange between the phases, resulting in a pair of local energy balance equations: one for each phase. Small-amplitude disturbances of the basic rest state are envisaged to test the stability. Then, the standard normal mode procedure is…

Thermal equilibriumConvectionHistoryLOCAL THERMAL NONEQUILIBRIUMEIGENPROBLEM FORMULATIONChemistryThermodynamicsLOCAL THERMAL NON-EQUILIBRIUMMechanicsInstabilityIsothermal processComputer Science ApplicationsEducationPhysics::Fluid DynamicsShooting methodThermal conductivityPOROUS MEDIUMLINEAR STABILITY ANALYSISHeat transferBoundary value problemUNIFORM WALL HEAT FLUXJournal of Physics: Conference Series
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