Search results for "thermal [correlation function]"

showing 10 items of 1923 documents

A Ioffe Trap Magnet for the Project 8 Atom Trapping Demonstrator

2020

The goal of the Project 8 experiment (B. Monreal and J. Formaggio, 2009) is to measure the absolute neutrino mass using tritium, which involves precisely measuring the energies of the beta-decay electrons in the high-energy tail of the spectrum (A. A. Esfahani et al. , 2017). The experimental installation of Project 8 Atom Trapping Demonstrator requires a magnet with rather unusual field properties. The magnet has to contain within the cold mass a large volume enclosed by a continuous, uninterrupted boundary higher than 2 T, whereas the field in a substantial volume inside this boundary has to be of the order of 10−4 T or less. A 1-T solenoid field provides the background field necessary fo…

PhysicsToroidMagnetic separationSuperconducting magnetElectronCondensed Matter PhysicsThermal conduction01 natural sciences7. Clean energyElectronic Optical and Magnetic MaterialsElectromagnetic coilMagnet0103 physical sciencesDuct (flow)Electrical and Electronic EngineeringAtomic physics010306 general physics
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The calculation of the mean radiant temperature of a subject exposed to the solar radiation – A generalised algorithm

2005

Abstract The thermal sensation experienced by a subject in a confined environment is significantly affected by the radiative heat exchange between the human body and the surrounding surfaces: it contributes as far as 30% of the whole thermal exchanges of the subject. Besides, the presence of high-intensity radiation sources like, for example, the sun, may appreciably modify the radiant field to which people are exposed. As a consequence, this could alter notably the comfort conditions. In order of properly taking into account this issue, a simple analytical method is introduced in this work, that allows the easy evaluation of the thermal radiant field induced by the presence of the solar ra…

PhysicsWork (thermodynamics)Operative temperatureEnvironmental EngineeringRadiative heat exchangebusiness.industryGeography Planning and DevelopmentMean radiant temperatureThermal comfortBuilding and ConstructionMechanicsRadiationThermal comfortOpticsPMVThermalHeat transferPassive solar building designMean radiant temperaturebusinessCivil and Structural EngineeringPPD
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Non-classical Velocity Statistics in Counterflow Quantum Turbulence

2014

In this work we analyse the statistical distribution of turbulent superfluid velocity components in a He II counterflow channel, via two-dimensional numerical simulations pre- sented in past studies. The Probability Density Functions (PDFs) of the superfluid velocity components are investigated at lengthscales smaller than the average intervortex spacing, for varying vortex densities and different wall-normal distances. The results obtained con- firm the non-classical signature of quantum turbulence already observed in past numerical studies.

PhysicsWork (thermodynamics)Partial differential equationTurbulenceApplied MathematicsQuantum turbulenceNon-Gaussian velocity statisticProbability density functionMechanicsQuantum turbulenceVortexPhysics::Fluid DynamicsSuperfluidityThermal counterflowClassical mechanicsSuperfluid heliumSettore MAT/07 - Fisica MatematicaSuperfluid helium-4Acta Applicandae Mathematicae
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Dynamics of a Quantum Particle in Asymmetric Bistable Potential with Environmental Noise

2011

In this work we analyze the dynamics of a quantum particle subject to an asymmetric bistable potential and interacting with a thermal reservoir. We obtain the time evolution of the population distributions in both energy and position eigenstates of the particle, for different values of the coupling strength with the thermal bath. The calculation is carried out using the Feynman-Vernon functional under the discrete variable representation.

PhysicsWork (thermodynamics)Physics and Astronomy (miscellaneous)BistabilityThermal reservoirTime evolutionBistable potential; Noise Enhanced Stability; Discrete Variable Representation; Caldeira-Leggett modelNoise Enhanced StabilitySettore FIS/03 - Fisica Della MateriaBistable potentialDVRPosition (vector)Quantum mechanicsThermalNESParticleEigenvalues and eigenvectorsDiscrete Variable RepresentationCaldeira-Leggett model
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MHD evolution of a fragment of a CME core in the outer solar corona

2007

Detailed hydrodynamic modeling explained several features of a fragment of the core of a Coronal Mass Ejection observed with SoHO/UVCS at 1.7 Ro on 12 December 1997, but some questions remained unsolved. We investigate the role of the magnetic fields in the thermal insulation and the expansion of an ejected fragment (cloud) traveling upwards in the outer corona. We perform MHD simulations including the effects of thermal conduction and radiative losses of a dense spherical or cylindrical cloud launched upwards in the outer corona, with various assumptions on the strength and topology of the ambient magnetic field; we also consider the case of a cylindrical cloud with an internal magnetic fi…

Physicsbusiness.industryAstrophysics (astro-ph)FOS: Physical sciencesAstronomy and AstrophysicsAstrophysicsThermal conductionAstrophysicsCoronaMagnetic fieldSpace and Planetary ScienceThermal insulationBeta (plasma physics)Physics::Space PhysicsRadiative transferCoronal mass ejectionAstrophysics::Solar and Stellar AstrophysicsMagnetohydrodynamicsbusinessSun: coronal mass ejections (CMEs) – magnetohydrodynamics (MHD) – Sun: corona
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A dynamic collimation and alignment system for the Helmholtz linear accelerator

2021

Review of scientific instruments 92(11), 113306 - 113306-9 (2021). doi:10.1063/5.0069824

Physicsbusiness.industryCollimated lightLinear particle accelerator620Transverse planesymbols.namesakeOpticsCryomoduleHelmholtz free energysymbolsContinuous wavePhysics::Accelerator PhysicsThermal emittanceddc:620businessInstrumentationBeam (structure)
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Electric conduction in semiconductors: a pedagogical model based on the Monte Carlo method

2008

We present a pedagogic approach aimed at modelling electric conduction in semiconductors in order to describe and explain some macroscopic properties, such as the characteristic behaviour of resistance as a function of temperature. A simple model of the band structure is adopted for the generation of electron–hole pairs as well as for the carrier transport in moderate electric fields. The semiconductor behaviour is described by substituting the traditional statistical approach (requiring a deep mathematical background) with microscopic models, based on the Monte Carlo method, in which simple rules applied to microscopic particles and quasi-particles determine the macroscopic properties. We …

Physicsbusiness.industryMonte Carlo methodGAASGeneral Physics and AstronomyElectron holeFunction (mathematics)Thermal conductionSemiconductorSimple (abstract algebra)Electric fieldQuasiparticleStatistical physicsDRIFT VELOCITYbusinessSILICON
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Response to “Comment on ‘Comparison and uncertainty evaluation of different calibration protocols and ionization chambers for low-energy surface brac…

2016

Physicsbusiness.industrymedicine.medical_treatmentMonte Carlo methodBrachytherapyThermal ionizationGeneral Medicine030218 nuclear medicine & medical imagingComputational physics03 medical and health sciences0302 clinical medicineLow energy030220 oncology & carcinogenesisIonizationCalibrationmedicineMeasurement uncertaintyDosimetryNuclear medicinebusinessMedical Physics
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Collisional and thermal ionization of sodium Rydberg atoms: II. Theory fornS,nP andnD states withn= 5–25

2005

A stochastic model of associative ionization in collisions of Rydberg atoms with ground-state atoms is presented. The conventional Duman–Shmatov–Mihajlov–Janev (DSMJ) model treats the ionization as excitation of Rydberg electron to the continuum by the electric-dipole field generated by exchange interaction within the quasi-molecular ion. The stochastic model essentially extends this treatment by taking into account redistribution of population over a range of Rydberg states prior to ionization, which is caused by non-adiabatic processes in overlapping multiple level crossings of quasi-molecular Rydberg states. The redistribution is modelled as diffusion of electrons in the Rydberg energy s…

Physicseducation.field_of_studyPopulationThermal ionizationCondensed Matter PhysicsAtomic and Molecular Physics and OpticsIonsymbols.namesakeRydberg constantIonizationRydberg atomRydberg formulasymbolsRydberg matterPhysics::Atomic PhysicsAtomic physicseducationJournal of Physics B: Atomic, Molecular and Optical Physics
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The bistable potential: An archetype for classical and quantum systems

2012

In this work we analyze the transient dynamics of three different classical and quantum systems. First, we consider a classical Brownian particle moving in an asymmetric bistable potential, subject to a multiplicative and additive noise source. We investigate the role of these two noise sources on the life time of the metastable state. A nonmonotonic behavior of the lifetime as a function of both additive and multiplicative noise intensities is found, revealing the phenomenon of noise enhanced stability. Afterward, by using a LotkaVolterra model, the dynamics of two competing species in the presence of Lévy noise sources is analyzed. Quasiperiodic oscillations and stochastic resonance pheno…

Physicsmultiplicative noiseSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciBistabilityThermal reservoirMetastability and bistabilityStochastic resonanceTime evolutionStatistical and Nonlinear Physicsopen quantum systemsCondensed Matter PhysicsNoise (electronics)Multiplicative noisepopulation dynamicnoise enhanced stabilityQuantum mechanicsQuasiperiodic functionStatistical physicsstochastic resonanceQuantumMetastability and bistability; multiplicative noise; noise enhanced stability; stochastic resonance; population dynamics; open quantum systems
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