Search results for "Cooling"

showing 10 items of 470 documents

First experiments with the heidelberg test storage ring TSR

1989

Abstract The Heidelberg heavy ion test storage ring TSR started operation in May 1988. The lifetimes of the ion beams observed in the first experiments can be explained by interactions with the residual gas. Multiple Coulomb scattering, single Coulomb scattering, electron capture and electron stripping are the relevant processes. Electron cooling of ions as heavy as O 8+ has been observed for the first time. With increasing particle number, the longitudinal Schottky noise spectrum becomes dominated by collective waves for cooled beams, allowing a determination of velocities of sound. After correcting for these coherent distortions fo the Schottky spectrum, the longitudinal beam temperature …

Nuclear and High Energy PhysicsBeam diameterChemistryElectronlaw.inventionIonIntrabeam scatteringlawLaser coolingPhysics::Accelerator PhysicsAtomic physicsInstrumentationStorage ringBeam (structure)Electron coolingNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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Laser spectroscopy and laser cooling of relativistic stored ion beams

1991

Abstract Experiments with relativistic ions at the test storage ring TSR [P. Baumann et al., Nucl. Instr. and Meth. A268 (1988) 531] demonstrate the potential of the interaction of laser light with energetic stored ions for spectroscopic purposes as well as for manipulation of the ion velocity. Latest results for Li+ ions are reported. At the ion energies available at ESR [B. Franzke, Nucl. Instr. and Meth. B24 B25 (1987) 19] it will become possible to prepare and store bare ions up to U92+. Experiments using these exotic beams are discussed and an outlook to the situation at even higher energies is given.

Nuclear and High Energy PhysicsChemistryLaser coolingAtomic physicsSpectroscopyInstrumentationStorage ringLaser lightIonNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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LASER SPECTROSCOPY WITH A COOLER RING AT THE ESR (GSI) AND THE TSR (MPI HEIDELBERG)

1992

At the TSR cooler ring at Heidelberg, laser studies were carried out using singly charged lithium and beryllium ions. Laser spectroscopy of relativistic lithium ions (v=0.04c) yielded signals with a narrow linewidth, suitable for an experimental test of special relativity. A dramatic reduction of the beam temperature, as defined by the longitudinal velocity spread, was achieved via laser cooling in both cases. At the ion energies available at ESR it will become possible to prepare and store bare ions up to U92+. Electron cooling was succesfully demonstrated for hydrogen-like Bi82+ ions, where a laser experiment is scheduled to study the ground-state hyperfine splitting.

Nuclear and High Energy PhysicsChemistryPhysics::Opticschemistry.chemical_elementCondensed Matter PhysicsLaserAtomic and Molecular Physics and Opticslaw.inventionIonLaser linewidthlawLaser coolingLithiumPhysics::Atomic PhysicsPhysical and Theoretical ChemistryAtomic physicsSpectroscopyHyperfine structureElectron cooling
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Cooling and bunching of ion beams for collinear laser spectroscopy

2003

A greatly increased sensitivity in collinear laser spectroscopy experiments has been achieved by the application of new on-line ion cooling and bunching techniques. Cooling of a low-energy ion beam to low emittance and low velocity spread is shown to increase the peak efficiency while bunching the beam results in highly efficient background suppression.

Nuclear and High Energy PhysicsLow emittanceIon beam depositionIon beamIon coolingChemistryLaser coolingPhysics::Accelerator PhysicsAtomic physicsSpectroscopyInstrumentationBeam (structure)IonNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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Experimental Determination of Four-Time Stimulated Echoes in Liquids, Colloidal Suspensions, and Crystals

1998

Four-time stimulated echo experiments have been used to monitor the temporal evolution of the reorientation rates of deuterated molecules or colloidal suspensions. We present extended phase cycles for this seven-pulse experiment. In order to test its performance three vastly different materials are chosen. These include a crystal in which the molecules carry out well-defined 180 degrees flips and a supercooled liquid characterized by a distribution of jump angles centered around 10 degrees. As an example for rotational diffusion, data on a concentrated suspension of polystyrene spheres in a viscous medium are presented. Copyright 1998 Academic Press.

Nuclear and High Energy PhysicsMaterials scienceBiophysicsRotational diffusionCondensed Matter Physics530BiochemistrySuspension (chemistry)Condensed Matter::Soft Condensed MatterCrystalCrystallographyColloidDeuteriumChemical physicsMoleculeStimulated echoPhysics::Chemical PhysicsSupercoolingJournal of magnetic resonance (San Diego, Calif. : 1997)
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Dynamics of supercooled liquids and glassy solids

2001

Nuclear and High Energy PhysicsMaterials scienceCondensed matter physicsSpin-lattice relaxationDynamics (mechanics)Slow dynamicsSpin–lattice relaxationViscous liquidMultidimensional NMR530BiochemistryAnalytical ChemistryHeterogeneous relaxationOrientational glassesLine-shape analysisStimulated echoesSupercooled liquidsSupercoolingGlass transitionGlass transitionSpectroscopyProgress in Nuclear Magnetic Resonance Spectroscopy
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A linear radiofrequency ion trap for accumulation, bunching, and emittance improvement of radioactive ion beams

2000

An ion beam cooler and buncher has been developed for the manipulation of radioactive ion beams. The gas-filled linear radiofrequency ion trap system is installed at the Penning trap mass spectrometer ISOLTRAP at ISOLDE/CERN. Its purpose is toaccumulate the 60-keV continuous ISOLDE ion beam with high efficiency and to convert it into low-energy low-emittance ion pulses. The efficiency was found to exceed 10\,\% in agreement with simulations. A more than 10-fold reduction of the ISOLDE beam emittance can be achieved. The system has been used successfully for first on-line experiments. Its principle, setup and performance will be discussed. An ion beam cooler and buncher has been developed fo…

Nuclear and High Energy PhysicsPhysics - Instrumentation and DetectorsIon beamIon trapFOS: Physical sciencesMass spectrometryIon cooling01 natural sciencesISOLTRAPIonNuclear physics0103 physical sciencesThermal emittance[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]Nuclear Experiment (nucl-ex)010306 general physicsNuclear ExperimentInstrumentationNuclear ExperimentRadioactive ion beamsIon guide21.10.Dr; 2.10.Bi; 07.75.+hPhysicsOn-line mass spectrometry010308 nuclear & particles physicsInstrumentation and Detectors (physics.ins-det)Penning trapAccelerators and Storage RingsIon buncherPhysics::Accelerator PhysicsIon trapBeam emittance
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A facility for production and laser cooling of cesium isotopes and isomers

2018

We report on the design, installation, and test of an experimental facility for the production of ultra-cold atomic isotopes and isomers of cesium. The setup covers a broad span of mass numbers and nuclear isomers, allowing one to directly compare chains of isotopes and isotope/isomer pairs. Cesium nuclei are produced by fission or fusion-evaporation reactions using primary proton beams from a 130 MeV cyclotron impinging upon a suitable target. The species of interest is ejected from the target in ionic form, electrostatically accelerated, mass separated, and routed to a science chamber. Here, ions are neutralized by implantation in a thin foil, and extracted by thermal diffusion. A neutral…

Nuclear and High Energy PhysicsPhysics - Instrumentation and DetectorsProtonCesium IsotopesAtomic Physics (physics.atom-ph)FissiontutkimuslaitteetCyclotronFOS: Physical scienceschemistry.chemical_element7. Clean energy01 natural sciencesPhysics - Atomic Physicslaw.inventionIonlaser coolinglawLaser cooling0103 physical sciencesPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsNuclear Experiment (nucl-ex)Nuclear Experiment010306 general physicsNuclear ExperimentInstrumentationPhysicsultra-cold nucleita114Isotope010308 nuclear & particles physicsInstrumentation and Detectors (physics.ins-det)3. Good healthchemistryCaesiumAtomic physicsydinfysiikkaisotopes and isomersNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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Conceptual design of the main Ancillary Systems of the ITER Water Cooled Lithium Lead Test Blanket System

2021

Abstract The Water Cooled Lithium Lead Test Blanket System (WCLL TBS) is one of the EU Test Blanket Systems candidate for being installed and operated in ITER. In view of its Conceptual Design Review by F4E and ITER Organization (IO), planned for mid-September 2020, several technical activities have been performed in the areas of WCLL TBS Ancillary Systems design. In this article the outcomes of the conceptual design phase of the four main Ancillary Systems of WCLL TBS, namely the Water Cooling System (WCS), the Coolant Purification System (CPS), the PbLi loop and the Tritium Extraction System (TES), are reported and critically discussed. In particular, for each Ancillary System hereafter a…

Nuclear engineeringCPS; ITER; PbLi loop; TES; WCLL TBS; WCSchemistry.chemical_elementPbLi loopBlanket01 natural sciences010305 fluids & plasmasConceptual designITER0103 physical sciencesWater coolingGeneral Materials Science010306 general physicsSettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringMechanical EngineeringWater cooledCoolantNuclear Energy and EngineeringchemistryEnvironmental scienceSystems designLithiumCPSWCSTESWCLL TBS
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On the numerical assessment of the thermal-hydraulic operating map of the DEMO Divertor Plasma Facing Components cooling circuit

2020

Abstract Within the framework of the Work Package DIV 1 - “Divertor Cassette Design and Integration” of the EUROfusion action, a research campaign has been jointly carried out by University of Palermo and ENEA to investigate the thermal-hydraulic behaviour of the DEMO divertor cassette cooling system, focussing the attention on the 2018 configuration of the Plasma Facing Components (PFCs) circuit consistent with the DEMO baseline 2017. The research campaign has been carried out following a theoretical-computational approach based on the finite volume method and adopting the commercial Computational Fluid-Dynamic (CFD) code ANSYS CFX. A steady-state CFD analysis has been carried out for the …

Nuclear engineeringComputational fluid dynamics01 natural sciences010305 fluids & plasmasThermal hydraulicsDivertor0103 physical sciencesMass flow rateWater coolingGeneral Materials ScienceTotal pressure010306 general physicsDEMOPlasma facing componentsSettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringThermofluid-dynamicsCritical heat fluxbusiness.industryMechanical EngineeringDivertorCoolantNuclear Energy and EngineeringEnvironmental sciencebusinessCFD analysisFusion Engineering and Design
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