Search results for "SEPARATION"

showing 10 items of 865 documents

Spatial separation of atomic states in a laser-cooled ion crystal

1998

A laser cooled ion crystal containing several hundred Ca+ ions has been stored in a linear Paul trap. Cooling is provided by a red detund laser at the 4S1/2−4P1/2 resonance transition. A second laser serves for repumping of those ions which decay from the excited 4P1/2 level to the metastable 3D3/2 state. The ions can be additionally excited by a third laser to a long lived metastable 3D5/2 energy level which decouples them from the cooling laser radiation. The light pressure acting upon the laser cooled ions pushes them into the direction of the laser beam. The ions in the metastable 3D5/2 state, however, do not experience any light pressure force and diffuse to the crystal side which poin…

PhysicsResolved sideband coolingPhysics::OpticsLaserAtomic and Molecular Physics and OpticsIonlaw.inventionCrystalPhysics::Plasma PhysicslawLaser coolingExcited statePhysics::Atomic PhysicsIon trapAtomic physicsAtomic vapor laser isotope separationPhysical Review A
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Precision determination of the ground-state hyperfine splitting inBa+137using the ion-storage technique

1982

PhysicsSeparation (aeronautics)Atomic physicsGround stateHyperfine structureIonPhysical Review A
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Multi-wavelength VLBI phase-delay astrometry of a complete sample of radio sources

2007

AbstractWe report on the first global high-precision (differential phase-delay) astrometric analyses performed on a complete set of radio sources. We have observed the S5 polar cap sample, consisting of 13 quasars and BL Lac objects, with the VLBA at 8.4, 15, and 43 GHz. We have developed new algorithms to enable the use of the differential phase-delay observable in global astrometric observations. From our global analyses, we determine the relative positions between all pairs of sources with typical precisions ranging from 10 to 200 μas, depending on observing frequency and source separation. In this paper, we discuss the impact of this observable in the enhancement of the astrometric prec…

PhysicsSpace and Planetary ScienceVery-long-baseline interferometrySource separationAstronomyAstronomy and AstrophysicsObservableRangingQuasarAstrophysicsAstrometryStability (probability)Group delay and phase delayProceedings of the International Astronomical Union
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Surface-directed spinodal decomposition: Lattice model versus Ginzburg-Landau theory

2009

When a binary mixture is quenched into the unstable region of the phase diagram, phase separation starts by spontaneous growth of long-wavelength concentration fluctuations ("spinodal decomposition"). In the presence of surfaces, the latter provide nontrivial boundary conditions for this growth. These boundary conditions can be derived from lattice models by suitable continuum approximations. But the lattice models can also be simulated directly, and thus used to clarify the conditions under which the Ginzburg–Landau type theory is valid. This comparison shows that the latter is accurate only in the immediate vicinity of the bulk critical point, if thermal fluctuations can also be neglecte…

PhysicsSpinodalwettingCondensed matter physicsSpinodal decompositionBinary mixturesThermal fluctuationsStatistical and Nonlinear PhysicsCondensed Matter PhysicsKawasaki kinetic Ising modelCritical point (thermodynamics)Lattice (order)computer simulationGinzburg–Landau theoryBoundary value problemStatistical physicsphase separationPhase diagram
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Effective Cahn-Hilliard Equation for the Phase Separation of Active Brownian Particles

2014

The kinetic separation of repulsive active Brownian particles into a dense and a dilute phase is analyzed using a systematic coarse-graining strategy. We derive an effective Cahn-Hilliard equation on large length and time scales, which implies that the separation process can be mapped onto that of passive particles. A lower density threshold for clustering is found, and using our approach we demonstrate that clustering first proceeds via a hysteretic nucleation scenario and above a higher threshold changes into a spinodal-like instability. Our results are in agreement with particle-resolved computer simulations and can be verified in experiments of artificial or biological microswimmers.

PhysicsStatistical Mechanics (cond-mat.stat-mech)NucleationFOS: Physical sciencesGeneral Physics and AstronomyCondensed Matter - Soft Condensed MatterKinetic energyInstabilitySeparation processPhase (matter)Soft Condensed Matter (cond-mat.soft)Statistical physicsCahn–Hilliard equationCluster analysisCondensed Matter - Statistical MechanicsBrownian motionPhysical Review Letters
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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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Particle-Laden Turbulent Channel Flow with Wall-Roughness

2015

Turbulent flows transporting a dispersed-phase are found in many environmental applications and engineering devices. Particle-laden flows are characterized by several peculiar phenomenologies such as preferential particle concentration and turbulence modulation of the carrier-phase due to the presence of the inertial particles [1].

Physics::Fluid DynamicsFlow separationMaterials scienceChézy formulaTurbulenceModulationPhysics::Space PhysicsParticleMechanicsSurface finishOpen-channel flowPipe flow
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Travelling Panels Interacting with External Flow

2013

This chapter is devoted to the analysis of the travelling panel, submerged in axially flowing fluid. In order to accurately model the dynamics and stability of a lightweight moving material, the interaction between the material and the surrounding air must be taken into account somehow. The light weight of the material leads to the inertial contribution of the surrounding air to the acceleration of the material becoming significant. In the small displacement regime, the geometry of the vibrating panel is approximately flat, and hence flow separation is unlikely. We will use the model of potential flow for the fluid. The approach described in this chapter allows for an efficient semi-analyti…

Physics::Fluid DynamicsPhysicsFlow separationPartial differential equationFluid–structure interactionFluid dynamicsPotential flowMechanicsAxial symmetryDisplacement (fluid)External flow
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INTEGRAL/SPI ground calibration

2003

Three calibration campaigns of the spectrometer SPI have been performed before launch in order to determine the instrument characteristics, such as the effective detection area, the spectral resolution and the angular resolution. Absolute determination of the effective area has been obtained from simulations and measurements. At 1 MeV, the effective area is 65 cm^2 for a point source on the optical axis, the spectral resolution ~2.3 keV. The angular resolution is better than 2.5 deg and the source separation capability about 1 deg. Some temperature dependant parameters will require permanent in-flight calibration.

Point source[SDU.ASTR.CO]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO]FOS: Physical sciencesInstrumentation ; Detectors ; Spectrographs ; Space vehicles ; Gamma rays ; ObservationsAstrophysicsUNESCO::ASTRONOMÍA Y ASTROFÍSICAAstrophysics01 natural sciences[PHYS.ASTR.CO]Physics [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO]OpticsSpectrographs0103 physical sciencesCalibrationSource separationAngular resolutionSpectral resolutionspace vehicles: instrumentsInstrumentation010303 astronomy & astrophysicsObservations:ASTRONOMÍA Y ASTROFÍSICA::Astronomía óptica [UNESCO]instrumentation: spectrographsPhysicsSpectrometer[SDU.ASTR]Sciences of the Universe [physics]/Astrophysics [astro-ph]010308 nuclear & particles physicsbusiness.industryinstrumentation: detectorsUNESCO::ASTRONOMÍA Y ASTROFÍSICA::Astronomía ópticaGamma raysAntenna apertureAstrophysics (astro-ph)DetectorsSpace vehiclesAstronomy and AstrophysicsOptical axisSpace and Planetary Sciencebusiness:ASTRONOMÍA Y ASTROFÍSICA [UNESCO]gamma rays: observations
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ChemInform Abstract: Supramolecular Complexation for Environmental Control

2012

Supramolecular complexes offer a new and efficient way for the monitoring and removal of many substances emanating from technical processes, fertilization, plant and animal protection, or e.g. chemotherapy. Such pollutants range from toxic or radioactive metal ions and anions to chemical side products, herbicides, pesticides to drugs including steroids, and include degradation products from natural sources. The applications involve usually fast and reversible complex formation, due to prevailing non-covalent interactions. This is of importance for sensing as well as for separation techniques, where the often expensive host compounds can then be reused almost indefinitely. Immobilization of …

PollutantChemistryComplex formationSupramolecular chemistrySeparation methodNew materialsGeneral MedicineBiochemical engineeringChemInform
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