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dc.contributor.authorDachev, T.
dc.contributor.authorTomov, B.
dc.contributor.authorMatviichuk, Y.
dc.contributor.authorDimitrov, P.
dc.contributor.authorLemaire, J.
dc.contributor.authorGregoire, G.
dc.contributor.authorCyamukungu, M.
dc.contributor.authorSchmitz, H.
dc.contributor.authorFujitaka, K.
dc.contributor.authorUchihori, Y.
dc.contributor.authorKitamura, H.
dc.contributor.authorReitz, G.
dc.contributor.authorBeaujean, R.
dc.contributor.authorPetrov, V.
dc.contributor.authorShurshakov, V.
dc.contributor.authorBenghin, V.
dc.contributor.authorSpurny, F.
dc.date2002
dc.date.accessioned2017-05-03T11:53:26Z
dc.date.available2017-05-03T11:53:26Z
dc.identifier.urihttps://orfeo.belnet.be/handle/internal/5180
dc.descriptionThe Mobile Radiation Exposure Control System's (Liulin-4 type) main purpose is to monitor simultaneously the doses and fluxes at 4 independent places. It can also be used for personnel dosimetry. The system consists of 4 battery-operated 256-channel dosimeters-spectrometers. We describe results obtained during the calibrations of the spectrometers at the Cyclotron facilities of the University of Louvain, Belgium and of the National Institute of Radiological Sciences-STA, Chiba, Japan with protons of energies up to 70 MeV. The angular sensitivities of the devices are studied and compared with Monte-Carlo predictions. We also present the results obtained at the HIMAC accelerator with 500 MeV/u Fe ions and at the CERN high energy radiation reference fields. Records made during airplane flights are shown and compared with the predictions of the CARI-6 model.
dc.languageeng
dc.titleCalibration results obtained with Liulin-4 type dosimeters
dc.typeArticle
dc.subject.frascatiPhysical sciences
dc.audienceScientific
dc.subject.freeCalibration
dc.subject.freeDosimeters
dc.subject.freeMonte Carlo methods
dc.subject.freeProtons
dc.subject.freeRadiation
dc.subject.freeSpectrometers
dc.subject.freeAngular sensitivities
dc.subject.freeSpace research
dc.subject.freeheavy ion
dc.subject.freepollution exposure
dc.subject.freeradiation budget
dc.subject.freeaerospace medicine
dc.subject.freeaircraft
dc.subject.freearticle
dc.subject.freecalibration
dc.subject.freecomparative study
dc.subject.freecyclotron
dc.subject.freeequipment design
dc.subject.freeinstrumentation
dc.subject.freemagnetic and electromagnetic equipment
dc.subject.freeMonte Carlo method
dc.subject.freeneutron
dc.subject.freeradiation dose
dc.subject.freeradiation monitoring
dc.subject.freeradiometry
dc.subject.freetheoretical model
dc.subject.freeAerospace Medicine
dc.subject.freeAircraft
dc.subject.freeCalibration
dc.subject.freeCyclotrons
dc.subject.freeEquipment Design
dc.subject.freeHeavy Ions
dc.subject.freeModels, Theoretical
dc.subject.freeMonte Carlo Method
dc.subject.freeNeutrons
dc.subject.freeParticle Accelerators
dc.subject.freeRadiation Dosage
dc.subject.freeRadiation Monitoring
dc.subject.freeRadiometry
dc.source.titleAdvances in Space Research
dc.source.volume30
dc.source.issue4
dc.source.page917-925
Orfeo.peerreviewedYes
dc.identifier.doi10.1016/S0273-1177(02)00411-8
dc.identifier.scopus2-s2.0-6444245918


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