Search results for "Radiation shield"

showing 3 items of 3 documents

Ein kalorimeter für hochenergetische elektronenstrahlen

1968

Abstract Construction details and experimental data are given for a total absorption calorimeter used for electron beams of several hundred MeV and for beam power up to 15 kW. In order to obtain high precision, precautions were taken to obtain very high heat insulation, specially by using a temperature controlled radiation shield. The heat loss of the 700 kg copper block corresponds to less than 10 −3 °C/h. Due to design calculations and confirmed by preliminary comparison tests with other beam monitors we consider the absolute accuracy to be 1% or probably better.

Materials scienceAbsolute accuracyHeat losseschemistry.chemical_elementGeneral MedicineElectronRadiation shieldCopperCalorimeterchemistryPhysics::Accelerator PhysicsAtomic physicsAbsorption (electromagnetic radiation)Beam (structure)Nuclear Instruments and Methods
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Upgrade and yields of the IGISOL facility

2008

The front end of the Jyvaskyla IGISOL facility was upgraded in 2003 by increasing its pumping capacity and by improving the radiation shielding. In late 2005, the skimmer electrode of the mass separator was replaced by a sextupole ion guide, which improved the mass separator efficiency up to an order of magnitude. The current design of the facility is described. The updated yield data, achieved with and without the additional JYFLTRAP purification, using both fusion evaporation reactions and particle induced fission is presented to give an overview of the capability of the facility. These data have been determined either by radioactivity measurements or by direct ion counting after the Penn…

Nuclear physicsFront and back endsNuclear and High Energy PhysicsUpgradeRadiation shieldingChemistryFissionMass spectrometryPenning trapInstrumentationIonSeparator (electricity)Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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Background radiation effects and hazards in planetary instrumentation

2006

Recent and proposed future planetary missions are becoming increasingly concerned with detailed geochemical assessment, often in a bid to ascertain the presence of water and life supporting geochemical systems. The instruments involved may use some kind of radioactive source, e.g. X-ray fluorescence spectrometry, Mossbauer spectrometry, neutron scattering. Having radioactive sources on a lander/rover poses various potential problems, in regard to both safety to personnel involved in the building of the instrument and to radiation effects on spacecraft structure and on other instruments. Indeed background radiation effects from one instrument may dominate measurements in another resulting in…

PhysicsNuclear and High Energy PhysicsRadiation shieldingSpacecraftbusiness.industryRadioactive sourceFluorescence spectrometryInstrumentation (computer programming)businessInstrumentationPlanetary missionsBackground radiationAstrobiologyNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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