Search results for " liquid helium"

showing 6 items of 6 documents

Refrigeration bound of heat-producing cylinders by superfluid helium

2019

In this paper we go ahead in our studies on refrigeration of nanosystems by superfluid helium, as an appealing subject for future applications to computers or astronautical precision nanodevices. We first recall the effective thermal conductivity in laminar counterflow superfluid helium through arrays of mutually parallel cylinders and we discuss the conditions for the appearance of quantum turbulence around the heat-producing cylinders. We then consider the cooling of an array of heat-producing cylindrical nanosystems by means of superfluid-helium counterflow. We discuss the upper bound on heat removal set by avoidance of quantum turbulence and avoidance of phase transition to normal He I,…

Condensed Matter::Quantum GasesPhysics::Fluid Dynamicsthermal conductivity liquid helium quantum turbulence micropores quantized vortices computer refrigeration.Mathematics; PhysicsRefrigerationExtended Thermodynamicssuperfluid heliumPhysics::Atomic and Molecular Clusterslcsh:Science (General)Settore MAT/07 - Fisica MatematicaMSC: 76A25 76F99 80A99.lcsh:Q1-390
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Effective thermal conductivity of helium II: from Landau to Gorter–Mellink regimes

2014

The size-dependent and flux-dependent effective thermal conductivity of narrow channels filled with He II is analyzed. The classical Landau evaluation of the effective thermal conductivity of quiescent He II is extended to describe the transition to fully turbulent regime, where the heat flux is proportional to the cubic root of the temperature gradient (Gorter–Mellink regime). To do so, we use an expression for the quantum vortex line density L in terms of the heat flux considering the influence of the walls. From it, and taking into account the friction force of normal component against the vortices, we compute the effective thermal conductivity as a function of the heat flux, and we disc…

PhysicsCondensed matter physicsTurbulenceApplied MathematicsGeneral MathematicsQuantum vortexGeneral Physics and Astronomychemistry.chemical_elementHeat transfer coefficientThermal conductionThermal diffusivityThermal conductivitychemistryHeat fluxThermal conductivity Liquid helium Quantum turbulence Micropores Quantized vorticesSettore MAT/07 - Fisica MatematicaHelium
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Propagation of fourth sound in turbulent superfluids via extended thermodynamics

2011

The work deals with further developments of a study previously initiated, in which a macroscopic one-fluid model of inhomogeneous turbulent superfluids, based on extended thermodynamics, had been formulated. In this work the study is carried on. First the influence of the remnant vortices on the propagation of the first and second sound is studied. Then a boundary condition able to explain the reversible flow of superfluid flowing through a thin capillary is postulated and two vector fields, which have the dimensions of velocity and can be interpreted as the velocities of normal and superfluid components, are introduced. By using these new fields, a comparison between this model and the Hal…

PhysicsSuperfluiditygeographygeography.geographical_feature_categorySettore MAT/05 - Analisi MatematicaTurbulenceGeneral Physics and AstronomyThermodynamicsGeneral ChemistryNon Equilibrium Thermodynamics Liquid Helium II Superfluid Turbulence Fourth sound Porous media.Settore MAT/07 - Fisica MatematicaSound (geography)Journal of Non-Equilibrium Thermodynamics
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Hydrodynamic equations of anisotropic, polarized and inhomogeneous superfluid vortex tangles

2008

We include the effects of anisotropy and polarization in the hydrodynamics of inhomogeneous vortex tangles, thus generalizing the well known Hall-Vinen-Bekarevich-Khalatnikov equations, which do not take them in consideration. These effects contribute to the mutual friction force ${\bf F}_{ns}$ between normal and superfluid components and to the vortex tension force $\rho_s{\bf T}$. These equations are complemented by an evolution equation for the vortex line density $L$, which takes into account these contributions. These equations are expected to be more suitable than the usual ones for rotating counterflows, or turbulence behind a cylinder, or turbulence produced by a grid of parallel th…

PhysicsTurbulenceCondensed Matter::OtherFOS: Physical sciencesStatistical and Nonlinear PhysicsTourbillonCondensed Matter PhysicsPolarization (waves)VortexCylinder (engine)law.inventionSuperfluidityPhysics::Fluid DynamicsCondensed Matter - Other Condensed MatterClassical mechanicslawEvolution equationAnisotropySettore MAT/07 - Fisica MatematicaSuperfluid turbulence Liquid helium II Hydrodynamic equationsOther Condensed Matter (cond-mat.other)
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Transition to ballistic regime for heat transport in helium II

2014

The size-dependent and flux-dependent effective thermal conductivity of narrow capillaries filled with superfluid helium is analyzed from a thermodynamic continuum perspective. The classical Landau evaluation of the effective thermal conductivity of quiescent superfluid, or the Gorter-Mellinck regime of turbulent superfluids, are extended to describe the transition to ballistic regime in narrow channels wherein the radius $R$ is comparable to (or smaller than) the phonon mean-free path $\ell$ in superfluid helium. To do so we start from an extended equation for the heat flux incorporating non-local terms, and take into consideration a heat slip flow along the walls of the tube. This leads f…

Quantum turbulenceGeneral Physics and Astronomychemistry.chemical_elementFOS: Physical sciencesQuantum turbulencelaw.inventionSuperfluidityPhysics::Fluid DynamicsSuperconductivity (cond-mat.supr-con)Ballistic phononsThermal conductivityThermal conductivity; Liquid helium; Quantum turbulence; Micropores; Quantized vortices; Ballistic phononslawMesoscale and Nanoscale Physics (cond-mat.mes-hall)Settore MAT/07 - Fisica MatematicaHeliumLiquid heliumPhysicsMicroporesCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed matter physicsLiquid heliumTurbulenceCondensed Matter - SuperconductivityMicroporeQuantized vorticeschemistryHeat fluxThermal conductivityQuantized vorticeSuperfluid helium-4
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Refrigeration of an array of cylindrical nanosystems by superfluid helium counterflow

2017

Abstract Motivated by the challenge of computer refrigeration, we study the limits set by the transition to quantum turbulence on the cooling of an array of heat-producing cylindrical nanosystems by means of superfluid-helium counterflow. The effective thermal conductivity in laminar counterflow superfluid helium is obtained in channels with rectangular cross section, through arrays of mutually parallel cylinders and in the combined situation of arrays of orthogonal cylinders inside the rectangular channel. The maximum cooling capacity is analyzed on the condition that turbulence is avoided and that the highest temperature does not exceed the lambda temperature.

Thermal conductivity Liquid helium Quantum turbulence Micropores Quantized vortices Computer refrigerationQuantum turbulenceCooling capacity01 natural sciences010305 fluids & plasmaslaw.inventionPhysics::Fluid DynamicsThermal conductivitylaw0103 physical sciencesthermal conductivity010306 general physicsSettore MAT/07 - Fisica Matematicathermal conductivity; liquid helium; quantum turbulence; micropores; quantized vortices; computer refrigerationquantized vorticesCondensed Matter::Quantum GasesFluid Flow and Transfer ProcessesPhysicsCondensed matter physicsliquid heliumTurbulenceLiquid heliumMechanical Engineeringcomputer refrigerationRefrigerationquantum turbulenceLaminar flowMechanicsCondensed Matter PhysicsmicroporesSuperfluid helium-4
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