Horia Hulubei National Institute of Physics and Nuclear ...people at the frontiers of Science and...
Transcript of Horia Hulubei National Institute of Physics and Nuclear ...people at the frontiers of Science and...
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Highlights
1956: Firstelectroniccomputer(CIFA-1) designedatIFA 1957: VVR-Sresearchreactor andU-120cyclotron(SU) 1962: Firstlaser(He-Ne)putintooperationatIFA 1974: MPTandemAcceleratorfromHVEC(USA) RadioisotopeProductionCenter(UK&RO) NuclearWasteProcessingCenter(UK&RO) 1985: NationalRadioactiveWasteRepository(RO) 2000: MultipurposeIrradiationFacility(A&HU&RO) 2001: ECCentreofExcellenceIDRANAP 2002: FirstGRIDapplicationinRomania 2010: StartoftheELI-NPProject
Brief History
1949:InstituteofPhysicsoftheRomanianAcademy 1956:InstituteofAtomicPhysics(IFA) 1977:CentralInstituteofPhysics(ICEFIZ) IFIN(nuclear), IFTAR(radiationequipment), IFTM(materials), CFPS(earth), IGSS(space). 1990:ICEFIZbecameIFA 1996:IFIN-HH
Horia Hulubei(1896-1972)
Founder and First Director of the Institute
Contribution to the study of quantum diffusion of X-rays (Ph.D. Thesis, Paris, 1933).
Supervisor:JeanPerrin(NobelPrize).Chairman:MarieCurie(NobelPrize).
IFIN-HHHoria Hulubei National Institute
of Physics and Nuclear Engineering
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Horia Hulubei National Institute of Physics and Nuclear Engineering
IFIN-HH
1949.TheInstituteofPhysicsoftheRomanianAcademywasestablished–whichbecametheInstituteofAtomicPhysics(IFA)in1956–thefirstinstituteofscientificresearchinRomania,whosefounderanddirectorwasProfessorHoriaHulubei.
Itwasthebeginningofhistory.Ahistorythatwastoestablishabrand,theMagureleNationalPhysicsCampus,stillinexistenceandhighlyrespectedtoday.Likewise,thenameofthefounderoftheRomanianschool of physics continues to be present on the frontispiece of the largest research institute in thecountry: The Horia Hulubei National Institute of Physics and Nuclear Engineering. An institutestandingattheforefrontoftheRomanianscience,bothintermsofresearchinfrastructuresandresearchpersonnel,providingover10%ofthenationalscientificoutput.
FollowingthetraditioninitiatedbyProfessorHoriaHulubei, IFIN-HHaddressesaspectrumofresearchanddevelopmentactivities infundamentalandappliedresearchareas includingNuclearPhysicsandAstrophysics, Particle Physics, Atomic Physics, Life and Environmental Physics, Theoretical Physics,NuclearTechniques,andAdvancedCommunicationSystems.Featuringavarietyofnation-wide-scopedfacilities among which we can mention the Tandem Van de Graff Accelerator, the U120 Cyclotron,theMultipurpose IrradiationFacilityCentre, theRadioactiveWasteTreatmentPlant, the institute isanimportantpartoftheRomanianresearchinfrastructure.
While focusing itsmissiononadvanced investigations inAtomicandSub-atomicPhysics, IFIN isalsocommitted towidening thepositive impactof theNuclearon industry,otherbusinessareas,aswellasonthesocietyatlarge,viaadiversifiedofferofuniqueprofessionalservices.VariousapplicationsofNuclearPhysicsandspin-offsofbasicnuclearresearchenabletheinstitutenotonlytoplaytheroleofanactivepromoterofdomesticprogressandmodernity,butalsotobringasignificantcontributiontothepublicacceptanceoftheNuclear.Intunewiththemainstreamtopicalresearch,IFIN-HHisassertingitselfasavalidinterlocutorandpartner,intherealmoftheEuro-Atlanticscienceandtechnologyendeavour.Ahighlyprofessionalqualityandprovenlevelofperformanceatbothindividualandwork-teamlevelmakeIFIN-HHfullycompliantwiththepolitical,scientific,andmanagerialrequirementsprevailingintheEuropeanspace.
Toturnitsstrengthtothebestaccount,theinstituteconcentratesitsresourcesonalongtwodirections:(a)tosteadilydevelopasoundin-housecapabilitytogetandstayintheforefrontofthecurrentnuclearscienceandtechnology;and(ii)tosubstantivelyparticipateintheEuropeancollaborativeendeavourscentredonLargeScaleFacilitiessuchasGSI-Darmstadt(Germany),GANIL-Caen(France),CERN(Geneva),JINR(Dubna).Thisisbelievedtobeacommon-senseandmitigativestrategymeanttoharmonizelimiteddomesticresourceswiththetallordersofthecontemporary,top-levelnuclearphysicsresearch,andtheimperativeneedforContinentalco-operationandintegration.Ontheselines,overthepastthreeyearsIFIN-HHhassuccessfullyparticipatedinmorethan200nationalprojectsandin20internationalprojectsoftheEuropeanCommission’sFrameworkProgrammes6and7.
IFIN-HH will continue to develop its infrastructure, manpower, and expertise. Bringing bright youngpeopleat the frontiersofScienceandblending theirenthusiasmwith theexperienceandeducatedtenacityoftheelders isbelievedtomakeasurerecipetoguaranteealong-termsustainabilityofouractivities.
Acad. Nicolae Victor Zamfir,Director General
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Basic & Applied Research• Theoretical Physics: nuclei,fields&particles,
condensedmatter,nonlinearphenomena,mathematical&computationalphysics;
• Nuclear Physics: structure&reactionmechanisms,hadronicmatter,ionbeamanalysis,neutrondiffraction,nuclear&atomicdata,nuclearastrophysics,advanceddetectionsystems;
• Particle Physics: calorimetry,MonteCarlosimulations,objectorientedsoftware,statisticaldataanalysis,phenomenology;
• Life & Environmental Physics: low-doseradiobiology,nuclearrisk,geophysicalmigration,controlofsoilerosion,dosimetryandradiationmetrology.
Production & Services:• Radioisotopes&Radiopharmaceuticals• TechnologicalIrradiations• RadioactiveWasteTreatment&Storage• DecommissioningofNuclearInstallations
Other Activities:• Informatics&Communications• TraininginNuclearActivities
Large Scale Facilities• FN-15TandemVandeGraaffAccelerator;• RadioisotopeProductionCenter• NuclearWasteProcessingCenter• NationalRadioactiveWasteRepository• IRASM-MultipurposeIrradiationFacility• U120Cyclotron
IFIN-HHHoria Hulubei National Institute
of Physics and Nuclear Engineering
Department of Theoretical Physics (DFT)http://www.nipne.ro/research/departments/dft.php
Department of Nuclear Physics (DFN)http://tandem.nipne.ro/
Department of Elementary Particles and Information Technologies (DPETI)http://www.nipne.ro/research/departments/dfpe.php
Hadron Physics Department (DFH)http://www.nipne.ro/research/departments/dfh.php
Department of Life and Environmental Physics (DFVM)http://www.nipne.ro/research/departments/dfvm.php
Department of Radioisotopes and Radiation Metrology (DRMR)http://www.nipne.ro/research/departments/cpr.php
Department of Applied Nuclear Physics (DFNA)http://www.nipne.ro/research/departments/dfna.php
IRASM – Radiation Processing Centrehttp://www.nipne.ro/research/departments/irasm.php
Centre for Reactor Decommisioning and Radioactive Waste Management• Department of Reactor Decommissioning (DDR)
http://www.nipne.ro/facilities/facilities/reactor.php• Radioactive Waste Management Department (DMDR)
http://www.nipne.ro/facilities/facilities/stdr.php
Sub-Department of Library, Dissemination, Public Relations, Technological Transfer and Marketing (CBDRPTTM)http://www.nipne.ro/community/library/
Nuclear Training Centre (CPSDN)http://www.nipne.ro/research/departments/cpsdn.php
(see pag. 6–18)
Staff 434 R&D 174 PhD 93 PhD Students 22 PhD Advisors 77 Members, Editorial Boards, ISI Journals
Publications 2008-2010Papers published in ISI Journals 946 non ISI Journals 272
Scientific meetings organized in 2008-2010 20 International 16 National
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Horia Hulubei National Institute of Physics and Nuclear Engineering
IFIN-HH
Certified Laboratories within the IFIN-HH Departments
Ionizing Radiation Calibration Laboratory (LERI/DRMR,[email protected])[calibration,dosimeter/radiometricinstruments;RENARaccreditation,CNCANdesignation]Ionizing Radiation Testing Laboratory (LIRI/DRMR,[email protected])[tests,instrument,radioactivesources(equipment),materials;RENAR,CNCAN]Laboratory for Testing and Certification of Compliance for Radiopharmaceuticals, Radiochemicals and Radioactive Sources(CPRLAB/DRMR,[email protected])[analysisradionuclidic/radiochemical,radioisotopes,sealedsourcesofradiation,radiopharmaceuticals]Radionuclide Metrology Laboratory(LMRE-LMRI/DRMR,[email protected])[radionuclidestandards,calibration,testing-calibration,radionuclidemeasurements]Laboratory for Elemental and Structural Analysis of Nanostructured Materials using Rutherford Backscattering Spectrometry (RBS) (RBSL/DFNA,[email protected])[RutherfordBackScattering,thinlayers,depthprofiling,interfacemixing]‘ACTIVA-N’ Materials Testing Laboratory (ACTIVA-N/DFNA,[email protected])[activityevaluation,elementalanalysis,gamma-rayspectrometry,neutronactivation,OES,XRF]Laboratory for Biocompatibility Evaluation of Medical Materials and Devices (BIOEVAL/DFVM,[email protected])[biocompatibility,medicaldevices,cytotoxicitytests,allergenicitytest]Environmental and Personnel Dosimetry Laboratory (LDPM/DFVM,[email protected])[radioactivity,monitoring,dosimetry,environment,personnel]Laboratory for α, β, γ Spectrometry and Radon Measurements (SALMROM/DFVM,[email protected])[alpha,beta,gamma,radon,spectrometry,globalmeasurements]Whole Body Monitoring Laboratory(USCIR/DFVM,[email protected])[wholebodycounter,internalradioactivecontaminationmonitoring,internaldosimetry]Low Background Gamma-Ray Spectrometry Laboratory (GAMASPEC/DFN,[email protected])[gamma-rayspectrometry,radionuclideanalysis,environmentalradioactivity,NAA]Spectroscopy Analysis Laboratory (LAS/DMDR,[email protected])[spectrometryanalysis,radioactivesourceexamination,gamma-rayspectrometry]Microbiology Laboratory (LM/IRASM,[email protected])[microbiologicaltests,validationofirradiationsterilization;RENAR,ANMauthorization]Detection of Irradiated Foods Laboratory(LDAI/IRASM,[email protected])[detection,irradiatedfoodstuff,10ISOstandards]Physical and Chemical Testing Laboratory(LFC/IRASM,[email protected])[color,mechanicaltests,GC-MS,TG,DSC,DTA,FT-IR,FT-Raman,EPR,TL,OSL]
(see from pag. 19)
International Collaborations
Withinternationalinstitutions:
Withuniversitiesandresearchcenters
fromabroad:
Memberof:
Participationinlargescaleinternationalexperiments:
andprojects:
•EU (Brussels, Belgium)• IAEA (Vienna, Austria)• INFN (Italy)•GSI (Darmstadt, Germany)• IN2P3 (Paris, France)•GANIL (Caen, France)
•Europe - 50•USA & Canada - 11•Asia - 3
• JINR (Dubna, Russia)•FAIR (Darmstadt, Germany)•CERN (Geneva, Switzerland)
ATLAS, ALICE, LHC-b, DIRAC, FOPI, LCG, GASP, KASCADE, SPIRAL2
RODOS EURONS EURISOL
IFIN-HH
30 Reactorului st., P.O. Box MG-6, Bucharest-Magurele, RO-077125, ROMANIA
+(4) 021 404 2300 +(4) 021 457 4440 (Fax)
Email: [email protected] [email protected]
* (
Directions of scientific activity
A. Nuclear Physics and Astrophysics • Synthesisanddecayofsuper-heavyelements,
studyofnuclearstructurebyparticleemissionprocesses,clustersandfission,exoticnucleifarfromthelineofstability;
• Anharmonicandmultiphononicstatesinatomicnuclei,heavyionnuclearpotential;
• Microscopicandphenomenologicalmodelsofnuclearstructure,phasetransitionsinfinitesystems,contractionsofLiegroupsandsymmetriescorrespondingtothecriticalpointofphasetransition,doublebetadecay,statisticalaspectsofnuclearmultifragmentation,specialaspectsofclassicalandquantumchaosinnuclearsystems;
• Nuclearandsubnuclearmatter(phasetransitions,physicsofneutronstars);
• Dynamicsofnuclearreactionsatlow,intermediateandrelativisticenergies(fusion,nuclearmultifragmentation,stellarsynthesis,transitiontoquark-gluonplasma).
CONTACTDr. Aurelian ISARPhone:(+4)0214046254Fax:(+4)0214575332Email:[email protected]
Department of Theoretical Physics (DFT)
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B. Elementary Particle Physics and Field Theory
• Symmetriesandconservationlawsoncurvedspaces,quantumeffectsingravitationalinteractionandmathematicalmodelinginastrophysicsandcosmology;
• Electroweakandstronginteractionswithinthestandardmodelandeffectivetheories;
• Highenergyphysics;• Exploringphysicsbeyondthestandardmodel,
investigationofgeneralizedfieldtheories(noncommutativetheories,stringsetc).
C. Atomic Physics, Condensed Matter Physics, Photonics
• Condensedmattertheory,matteraggregation,phasetransitions,statisticalphysicsandphysicsofcomplexphenomena:quantumstatistics,nanophysics,nanostructures,energyandparticleflows,hightemperaturesuperconductivity,physicalsystemsonfinitelattices;
• Nonlinearphenomena:spatiotemporalopticalsolitonsindissipativesystems,inelasticcollisions.
D. Mathematical Physics and Physics of Quantum Information
• Advancedcomputationalmethodsinnonlinearphotonics,Bose-Einsteincondensateinquantumandnuclearprocesses(numericalmethodsandhighperformancesoftware,includingbyparallelanddistributedGridcomputingonmulticoresystems)
• Dissipativephenomenainopensystems,roleofquantumdecoherenceinquantuminformationprocessingandtransmission,quantumentanglement,Gaussianquantumchannels;
• Mathematicalphysicsstudiesrelatedtothestandardmodelofelementaryparticleinteractions(includinggravity);newextensionsofthecausalapproachinperturbativequantumfieldtheory,coherentstatetypegrouprepresentations:studyoftherelationshipbetweenJacobigroupandsqueezedstates;
• StudyofnonlineargeometricequationsofRicciflowtypeonmanifoldsandsupermanifolds,multisolitonsolutionsforsupersymmetricintegrablesystems,algebraicgeometrymethodsforstudyingintegrabilityofdiscreteequations;studyofnonlineardynamicsfordustyplasma.
Organized by:• Romanian Academy• University of Bucharest• Horia Hulubei National Institute
of Physics and Nuclear Engineering• Institute of Atomic Physics • Academy of Romanian Scientists• Abdus Salam International Centre for Theoretical Physics
http://3nctp_st.nipne.ro/
June, 10-13, 2008, Hotel "Alexandros", Busteni, ROMANIA
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• Ş
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UNESCO Anniversary
rd National Conference on Theoretical Physics
Dedicated to Serban Titeica
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Şerban Ţiţeica (1908-1985)
Uber die Widerstand-sänderung von Metallen
im Magnetfeld(Ph.D. Thesis, Leipzig, 1934).
Supervisor: Werner Heisenberg
(Nobel Prize)
FirstScientificDirectoroftheInstituteandFounder
oftheRomanianSchoolofTheoreticalPhysics
ThescientificactivityoftheDepartmentofNuclearPhysics(DFN)ismostlyexperimental,beingfocusedonbasicresearchinnuclearandatomicphysics.Thehighlevelofknow-howandtheadvancedequip-mentofthisdepartmentallowavarietyofnuclearphysics studies, applications and multidisciplinaryresearch. These studies are conducted using theaccelerated beams obtained at the 9 MV TandemVandeGraaffacceleratorandatthemostimportantEuropeannuclearfacilities(GSI–Germany,ISOLDE/CERN – Switzerland, GANIL – France, LNL/INFN –Italy).
The main research directions are: •studiesofnuclearstructureandinteractionsbe-
tweennuclei;•atomic physics studies using accelerated ion
beams;•measurementandevaluationofnucleardatafor
the design of future nuclear energy productionsystems;
•studyofcosmicrays;•multidisciplinaryresearchandapplicationsofion
beamsforthecharacterizationandmodificationofmaterials,performedincollaborationwithre-searchers from other fields: solid state physics,environmentalstudies,medicine,archeology,etc.Suchstudiesbenefit fromthespecial sensitivityoftheanalysismethodsthatarepossibleonlyataTandemaccelerator,suchas:- PIXE (Proton-InducedX-rayEmission)- PIGE (Proton-InducedGamma-rayEmission)- CPAA (ChargedParticleActivationAnalysis)- RBS (RutherfordBackscattering)andRBS-chan-
neling- NRA(NuclearReactionAnalysis)- ERDA(ElasticRecoilDetectionAnalysis)- AMS(AcceleratorMassSpectroscopy)
CONTACTDr. Nicolae MĂRGINEANPhone:(+4)0214042329Fax:(+4)0214574111Email:[email protected]
Department of Nuclear Physics (DFN)
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Characteristics of the Tandem electrostatic ac-celerator, a unique installation in the South-eastern Europe: •Terminalvoltage:between1.5and9MV(Pellet-
ronchargingsystem)•Typeofaccelerated ions:28speciesaccelerated
until now, from proton to gold, depending onuserdemands
•Beam energy: tens of MeV, depending on ionchargestate
•Energyresolution:10-4–10-5•Timestructureofbeam:1nspulsesuptoacon-
tinuousbeam•Beamintensity:uptoamaximumofafewμA,de-
pendingonthetypeofacceleratedion•Numberofexperimentalrooms(lines):2(7)•Cleanvacuumsystembasedonturbopumps in
therangeof10-7mbar•Earthquakeprotectionsystem
The experimental equipment in the DepartmentofNuclearPhysics isactual,comparable to that inadvancednuclearphysicslaboratoriesfromEurope.For gamma radiation detection, there are over 20high-purityGedetectorswhichcanbearrangedindifferentexperimentalconfigurations,and8LaBr3:Cedetectorswithfastresponseoftenthsofnanosec-onds.Thesedetectorsarebeingusedforgamma-rayspectroscopyexperimentsbothatourTANDEMacceleratorandatCERN/ISOLDEorotherEuropeanfacilities. Detectors of various types and sizes forthedetectionofchargedparticlesandheavyions,whichcanbeusedindependentlyorincorrelationwithgammaorneutrondetectorsarealsoavailableinDFN.Amodularsystemwith80elements(plasticscintillators)forneutrondetectionwasalsobuiltinthedepartmentandiscurrentlyusedtostudycor-relationsbetweenneutronsemittedduringnuclearfission.TheelectromagneticcalorimeterWILLI,alsobuiltandpresentlyoperatedinDFN,isusedforthedetectionofatmosphericmuons.
The Department of Elementary Particles andInformationTechnologies(DPETI)developsawiderangeof interdisciplinarystudieson internalstruc-tureofmatteraswellasbasicresearchinelemen-taryparticlephysicswhichcombinesphenomeno-logicalstudies,advancedtechnologies forparticledetection and Grid technology-based distributedcomputingsystems.
The ATLAS Experiment @ LHC-CERNATLASexperimentaimstofullyexploitthepotentialfornewdiscoveriesoftheLHCaccelerator.ThemaingoalsofthescientificprogrammeoftheATLAScol-laboration cover high accuracy measurements oftheStandardModel(SM)parametersandsearchfornew phenomena. Moreover, the nucleus-nucleuscollisions will offer a unique opportunity to studythe properties of matter under extreme energydensity conditions and the possible transition ofhadronmattertotheso-calledquark-gluonplasma.Recent results • monitoringandtestingfunctionalityoftheTile-
CalCalorimeter• phenomenological studies on accurate predic-
tionsoftheStandardModel,• studyofthediscoveringpotentialfornewphysi-
cal phenomena predicted by the theoreticalmodelsthatextendtheStandardModel
• improvement in scalabilityperformanceof soft-wareinfrastructurefortheacquisitionsystem
• Recentpublications:StudyoftheresponseoftheATLAScentralcalorimetertoPIONSATofenergiesfrom3to9GeV,Nucl.Tools.Meth.A607:372-386,2009;TestbeamstudiesofproductionmodulesoftheATLAStilecalorimeter,Nucl.Tools.Meth.A606:362-394,2009,ExpectedPerformanceoftheAT-LAS Experiment - Detector, Trigger and Physics,arXiv: 0901.0512, The ATLAS Experiment at theCERNLargeHadronCollider,JINST3:S08003,2008
The H1 Experiment @ HERA -DESY TheHERAexperimentalsetupistheonlyelectron-protoncollider in theworld, locatedatDeutschesElektronenSynchrotron(DESY),Hamburg,andH1isoneofthetwocomplexexperimentsthatcollecteddataduring1992-2007.Recent results• AGeneralSearchforNewPhenomenaatHERA,
Phys.Lett.B674:257-268,2009(Editors:M.RotaruandE.Sauvan)
• SearchforExcitedQuarksinepcollisionsatHERA,Phys.Lett.B678:335-343,2009(editors:G.StoicaandE.Sauvan)
• Publications:http://www-h1.desy.de/publica-tions/H1_sci_results.shtml
CONTACTDr. Călin ALEXAPhone:(+4)0214046262Fax:(+4)0214574856Email:[email protected]
Department of Elementary Particles and Information Technologies (DPETI)
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The SIDDHARTA Experiment @ DAΦNE SIDDHARTA(SiliconDriftDetectorsforHadronAtomResearchbyTimingApplication)continuesthesci-entific direction and technological developmentsachievedby theDEARexperiment (DAΦNEExoticAtomResearch)attheFrascatiNationalLaboratory(Italy).TheSIDDHARTAisdevotedtomeasuringtheKαlineshift–duetostronginteraction–inkaonichydrogenandkaonicdeuterium,usingSiliconDriftDetectors(SDD)withanaccuracyof1eV.Recent results: Kaonhelium-4X-raymeasurement inSIDDHARTA.Phys.Lett.B681(2009)310.
The PANDA Experiment @ FAIR TheexperimentPANDAaimsattestingthepossibil-ityofreplacingthePMTsdesignedtobeusedinthestructureofthetimeofflight(TOF)system-usedto identify the pions, kaons and protons emittedforwards-withSiPMdetectors.Becauseatempo-raryresolutionofabout50psisbeingrequiredforseparating particles emitted forward and a partof theTOFsystemis installed insideadipolewithB=0.8T,itisdesiredtestingofseveraltypesofSiPMalongwiththedevelopmentofanultra-fastreadingelectronics.Recent results: Implementationofeventgeneratorstosimulatetheanti-protoncollisionswithprotonsandnucleiinthePANDAexperiment.
ILC (International Linear Collider) isthenextparticleacceleratorafterLHC.The ILCwill acceler-atee+ande–withhighluminosity,uptoacentre-of-mass energy of 500 GeV in the initial phase,expected to increase afterwards to 1 TeV. IFIN-HHGroupparticipatesinFCAL(veryforwardregionoftheILC),partoftheILDdetector(InternationalLargeDetector)whoseLetterofIntenthasbeenrecentlyapprovedbytheinternationalexperts.Recent results: Expected electromagnetic and neutron doses fortheBeamCalatOLD,High-PerformanceComputingSystemforHighEnergyPhysics,acceptedforpubli-cationinRomanianJournalofPhysics.
ThemissionoftheInformationTechnologyGroup(GTI)inDPETIistomanage,developandmaintaincomputing and communications infrastructure ofIFIN-HHbyprovidingreliabletechnicalsupportfornational and international scientific collaborations.The GTI strategy is to implement top-level infor-mation technologies and to provide high qualityservicesinordertosupportresearchintoadvancedfields of physics. The activity of the other depart-ments largelydependsontheelectroniccommu-nication means managed by GTI. In this respect,overthelastyears,theprioritydirectionsforappliedresearchandtechnologicaldevelopmenthave fo-cusedonhighspeeddatanetworks,Gridtechnolo-gyandhighperformancecomputingformodelingandsimulationofcomplexphysicalsystems.
Grid Technologies •GTIcoordinatestheactivityoftheRomanianTier-
2Federation(RO-LCG),theentitythatrepresentsRomania in the LCG Worldwide collaboration(WLCG) initiated by CERN and groups fiveresearch institutes participating in the LHCComputing Grid (LCG). The Romanian Tier-2Federation(RO-LCG)contributestoprovidingthedatastorageandanalysisinfrastructurerequiredfor the ALICE, ATLAS and LHCb experiments atthe LHC accelerator. Therefore, the Grid CentreofGTImakesavailabletoWLCG950logicalCPU(core)and150terabytesfordataprocessingandstorage.
• Implementation of national computing Grid inphysicsandengineering.
• Web-based solutions for data Grids, Globustechnology.
• InvestigationintosecuringGridcommunicationsbyquantummethodsofinformationencryption.
Recent results: TheQUANTGRIDProject–QuantumSecurityinGridComputingApplications,RJP54,441(2009).
CONTACTDr. Mihnea DULEAPhone:(+4)0214046262Fax:(+4)0214574856Email:[email protected]
Information Technology Group (DPETI)
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High Performance Computing GTI has developed the infrastructure for parallelanddistributedcomputingintheinstitute,buildingandoptimizingserverclustersbasedonEthernet/Myrinet/Infinibandtechnology,andconductedMPIperformancetestsonthesesystems,incooperationwithLIT-JINRDubna.Recent results: • IBM BladeCenter cluster, 4 TFLOPS (Infiniband)
biocomputingcluster,2.7TFLOPS(Myrinet)• Performance assessment of the SIMFAP parallel
clusteratIFIN-HHBucharest,RJP53,No.5-6,2008
Modeling seismic process in Vrancea areaGTI has developed an advanced computingalgorithmformodelingseismicprocessinVranceaarea. This algorithm enables the investigation ofcomplexandquantitativepropertiesofseismogenicsystem and its evolution on seismic cycle scaleby advanced computing techniques, using Gridservices.Thealgorithmmodelsapercolativeprocesswithconstraintsthatgivesthepossibilitytosimulatethe earthquake-generating phenomenon startingfromthehistoryofgeophysicalobservationsintheregion.ThestudyiscarriedoutincooperationwiththeSeismologicalLaboratory,Reno,USA.Recent results: Earthquake simulation algorithmandcyclecharacteristicsinVrancea(Romania)area,Seismological Research Letters Volume 79, No. 2,292(2008).
Study of protein structure by molecular dynamics simulations GTI is currently investigating, in cooperation withthe Department of Physiology and Biophysics atthe University of California-Irvin, the mechanismof proton-transfer under the influence of lightinto retinal proteins. The numerical study of theinhibitionofprotonpumpmechanismintosensoryrhodopsin II (SR II) is conducted using GTI’s ownadvanced computing, with the simulation andanalysis programs CHARMM, VMD and NAMD -whosescalabilitywaspreviouslytestedinordertooptimize the number of processors and decreasethesimulationtime.Recent results: Dynamics of Water Molecules inBacteriorhodopsinMutants,BiophysicalJournal,96(3),40a(2009).
Hadron Physics Department (HPD) was founded in2007, based on the existing structure of the NIHAM(Nuclear InteractionsandHAdronicMater)CentreofExcellenceofNuclearPhysicsDepartment.Thegrouphasalongtraditionintacklingsomeofthegreatchal-lengesrelatedtonuclearstructureanddynamics,nu-clearinteractions,hadronmatter.
HPD Research Topics
• Microscopic description of nuclear properties at low energies:
-exoticstructureanddynamics,issuesofnuclearas-trophysics,testsoffundamental interactions,sym-metriesandexoticphenomenaexpectednearthedriplines.
- systematicconstructionofeffectivenuclearforceslinked to realistic interactions, tailored to be usedwith our state-of-the-art variational approaches(VAMPIR).
Collaborations: NUSTAR (HISPEC-DESPEC), DFG, ISO-LDE,ENSAN-JRA10(NuThEN),N-NA07(RIBTHENET).• Dynamics of Nuclear Collisions at Low, Inter-
mediate and Relativistic EnergiesOvertheyears,theresearchgroupsinHPDhavebeeninvolved in several international collaborations withcontributions recognized by the international com-munity:- DRACULA(DeviceforReactionAnalysisbasedon
a Complex and Unsurpassed on-Line Acquisitionsystem)experimentwasdesignedandbuiltbyDFHmembers. It was successfully operated between1991 and 1998 for systematic study of dissipativeprocessesinlightheavyionreactions.
- CHIMERA(ChargedHeavyIonMassandEnergyRe-solvingArray)experimentaldeviceinstalledatLNS–Catania.SomeofthePhysicstopicsaddressedbyDFHmembersare: isospindependenceinthedy-namical formation and evolution of the “neck” inperipheral collisions, cluster production in centralcollisions, dynamical fission and the influence ofnuclearmatterviscosityonthetimescale.
- The 4π - FOPIexperimentfromSIS18-GSIDarm-stadt,designedandbuiltwithsignificantcontribu-tionofDFHmembers,usedtostudytheproprietiesofbaryonmatteratdensitiesof2-3ρ0andtempera-turesofabout50-80MeV.ThePhysicstopicsunder-takenbyHPDmembersinclude:multidimensionalanalysisof the transitionenergy,azimuthally sym-metric flow in highly central collisions, azimuthaldependenceofcollectiveexpansionforsymmetricheavyioncollisions,isospineffectsandequationofstate of baryon matter. One should mention thatthe third phase of FOPI upgrade was based on anew type of architecture for RPC detector, pro-posedanddevelopedasprototypeinDFH.
CONTACTProf. Dr. Mihai PETROVICIPhone:(+4)0214046135Fax:(+4)0214574432Email:[email protected]://niham.nipne.ro
Hadron Physics Department (DFH)
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- ALICE(ALargeIonColliderExperiment)istheonlyheavy ion-dedicated experiment at LHC-CERN,whichwillexplorethebaryonfreenuclearmatterphasesupposedtohaveexistedseveralmicrosec-ondsafterBigBang.Theexperiment,readyforthefirstp-pcollisions,hasalreadysuccessfullycollectedthe first data in December 2009 confirming theperformanceofLHCandALICEexperiment.ALICEwillbe fullyoperationalbytheendof2010whenitwillrunatenergiesof5.5A•TeVforPb-Pb.Basedonthecontributionsofourgroupto theR&Dac-tivities,wereceivedthechallengingtaskofbuildingtheALICE–TRD(TransitionRadiationDetector)sub-detectortogetherwithGSI-Darmstadt,JINR-Dubna,IK-Frankfurt and PI-Heidelberg. In the end, DFHrealized 130 ALICE-TRD chambers, covering anarea of 167m2 and having 253000 read-out chan-nels(24%oftheALICE-TRD).CompletedinOctober2008,thisisthemostimportantachievementofaRomanianresearchinstitutewithinsuchalargein-ternationalcollaborationasALICE.Ourgrouphighlycontributed to the design of ALICE-TRD front-endelectronics.DFHmembersarecurrentlyinvolvedindata analysis and interpretation of the first resultsfromp+pcollisionsat0.9and2.36TeV.
- CBM (Compressed Baryon Matter) experiment atthefutureFAIR–GSIDarmstadt,scheduledtocomeintooperationin2015-2016,willusebeamenergiesbetween 10 and 40 A•GeV and will study baryonmatterphasediagramandrelatedphasetransitionsathighdensitiesand low temperatures,as itmayexist in neutron stars. The multiplicity conditionsandhighcountingratesCBMwilloperateatrequiredevelopmentofanewgenerationofdetectionandidentificationsystems.NewgenerationsofTRDandRPCdetectorsarepresentlyunderconstructionandtestinginDFH.ThefirstRPCprototypeofTRDfront-end electronics for high counting rates has beendevelopedbyDFHgroup.This is thefirstCHIPofsuchcomplexitydesignedinRomania.
DFH Research Infrastructure• Detector Laboratory• Electronics Laboratory (CADENCE AND OrCAD
infrastructure)• GRID NIHAMCentreofExcellencehasbeenamemberoftheALICEGRIDsinceNovember2002(thefirstinter-national GRID application in Romania). At present,NIHAMconsistsof~1000CPUcores,2GBRAM/core,~800 TB dedicated storage, 1 Gbit/sec internal net-work, 10 Gbit/sec uplink, 3 cooling units (industrialgrade), 3 x 80 kVA UPS, Diesel generator – 600 kVA.NIHAMDataCentreofDFHisoneofthemostefficientcomponents of the ALICE GRID: http://pcalimonitor.cern.ch:8889/show?page=index.html.
TheDepartmentofAppliedNuclearPhysics(DFNA)fo-cusesonscientificresearch indesigningexperimentalfacilitiesandmeasurementandsurveymethodology.
Atpresent,themainfieldsofactivityare: • Nuclearanalysissurveysanddevelopment
offacilities– Acceleratormassspectrometry(AMS)–Figure1– Archaeometry(XRFPIXE,X-raytomography)–
Figure2– Nuclearapplicationsinmedicine–Figure3– PositronspectroscopyandRBS–Figure4– Studiesoncertifiedmaterialsandbiomaterials–
Figure5 • Advanceddetectionsystems– Detectionandacquisitionsystems– Innovativetechniquesforparticledetection–
Figure6– Custom-designradiationsafetysystems–Figure7
TheDepartmentoperatesaCyclotron,atypeofpar-ticle accelerator that is unique in Romania. This canprovideprotonanddeuteronbeamsandalphapar-ticleswithenergyupto13MeV/amuatamaximumintensityof50μAandindirectly, intensefieldsoffastneutron–Figure8.
TwocertifiedlaboratoriesoperateintheDepartmentofAppliedNuclearPhysics: • ACTIVA-NMaterialsTestingLaboratory • LaboratoryforElementalandStructuralAnalysisof
NanostructuredMaterialsusingRutherfordBack-scatteringSpectrometry(RBS)
Department of Applied Nuclear Physics (DFNA)
11
CONTACTDr. Florin CONSTANTINPhone:(+4)0214042342Fax:(+4)0214574440Email:[email protected]
The Department of Radioisotopes and RadiationMetrologycarriesoutitsactivityin3buildings:• CPR Building - the only facility in the countryequippedwith:shieldedhotcellswithremotema-nipulators; sealed enclosures for radiochemistryworks; lockersconnectedto theventilationof thebuilding;cleanareasforproductionoforalradiop-harmaceuticals, analysis and control laboratories;facilityforventilationandgeneralandtechnologi-cal air conditioning outfitted with air intake andexhaust;storagefacilityforliquideffluentsandwa-ter certainly radioactive under suspicion of beingradioactive;dosimetryfacilityforgammaradiationmonitoring; radioactive gaseous effluent monitor(131I); fireplantwithdetectorsandprotectivesys-tems; heating system; ventilated air cooling facil-ity;electricalandautomationfacilities;distributionnetworks:heat,naturalgas,compressedair;controlroomformonitoringvitalinstallations;• CMRID Building; • Calibration Hall. Alltheunitshaveauthorizationtocarryoutnuclearactivities, health permits and manufacturing au-thorizations.
CONTACTDr. Dana NiculaePhone:(+4)0214042350Email:[email protected]
Department of Radioisotopes and Radiation Metrology (DRMR)
12
Thedepartmenthasalso3laboratorieswithRENARaccreditation/CNCANnotification:•LaboratoryforTestingandCertificationofCom-
pliance for Radiopharmaceuticals, Radiochemi-calsandRadioactiveSources(CPRLAB);
•RadionuclideMetrologyLaboratory(LMR);•GroupofRadiationMetrology-Testing-Dosimetry
(CMRID).
The activities of DRMR cover areas related to:
1. Research •Developmentofadvancedradiopharmaceuticals
intendedforimaging,earlydiagnosisortargetedradiotherapyofcancer;
• Ionizingradiationandradionuclidemetrology;•Radiotracers.2. Production •Productionoforalradiopharmaceuticals:
- Radioactiveiodinecapsules(131I)withactivityof3.7,1.85,0.925MBq/capsule,atreferencedateandtimefordiagnosticuse;
- Radioactive iodine solution (131I) with radioac-tiveconcentrationof0.37-3.7GBq/cm3,fororaladministration, bottles of 0.5-9 cm3 solutionandactivityonbottleof0.185-33.3GBqatref-erencedateandtime;
•Productionofsealed192Irradioactivesourcesusedingammagraphyanddefectoscopy;othersealedradioactivesources:60Co,137Csetc.
•Transferofradioactivesources;3. Expertise and services •for radiopharmaceuticals, radiochemicals, radi-
otracers, radioactive sources used in medicine,industry,agriculture,biologyetc.;
•Expertiseandcertificationofradioactivesourcesfrommedicineandindustry;varioussamplescer-tainlyradioactiveundersuspicionofbeingradio-active;
• Verification of removable surface contaminationandtightnessofsealedradioactivesources;
• Transport of radioactive material by authorizedvehicles;
• Physical-chemical, radiochemical, radionuclideanalyses;
• Advisory service offered to nuclear units underdecommissioning/upgradingbycontaminationmeasurements, gamma spectrometry analysisandpreparationofdocumentsforreleaseofusedequipment/materialsfromregulatorycontrol;
•Metrologicalverificationandcertificationofactiv-ity measuring equipment (radioisotope calibra-tors,contaminationmetersandstandardradioac-tivesources);
• Calibration, metrological testing of radiometry,dosimetrydevicesandalpha,betaandgamma-raycontaminationmeter.
TheDepartmentofLifeandEnvironmentalPhysics(DFVM)isorganizedonamultidisciplinarystructureinlinewiththeaddresseddiversityoftheareas.Thedevelopmentofnuclearpowerandionizingradia-tionapplicationsinRomania,especiallyinmedicine,has determined the need for research groups inIFIN-HH to cover a rather wide range of aspectsconcerning the ionizing radiation impact on theenvironmentandbiologicalsystems.Startingfromthe expertise accumulated in this field, the activi-ties of this department have been diversified byapproachingalsoconnectedareas,notnecessarilyinvolvingionizingradiation.
Inthiscontext,theactivitiesinthedepartmentad-dressbasicresearch,appliedresearchandservicestovariouscustomers.
Basic research • effectsofionizingradiationonbiologicalsys-
tems(atmolecular,cellularorwholebodylevel); • biochemicalmechanismsinvolvedinpatholo-
giesofwideimpact,pathologieswhichhaveincommontheoccurrenceofoxidativestressprocesses(diabetes,atherosclerosis,canceretc.)
• membranebiophysicsstudies(channel-formingproteins,receptors,modelmembrane);
• quantumbiologystudies • dynamicmodellingofradionuclidestransferin
differentecosystems,asforexampleH-3andC-14transferintheatmosphere–soil–vegeta-tion–animals(terrestrialandaquaticanimals,domesticandwildanimals,birds)–humancontinuum.
• advancedradioecologystudiesforcomplexecosystems(developmentoftechniquesandadvancedmodelsforatmosphericparametersassessmentusinginputdatagivenbyMeteoro-logicalTower);
• studiesonnuclearphysicsmeasurementsinultra-lowbackgroundareas
Applied Research • useofradioisotopesastracersinstudieson
environmentalevolution; • developmentofcomputermodelsandtoolsfor
decisionsupportincaseofaccidentsinvolvingradiologicalandchemicalpollution;
• developmentofspecializedtechnologiesfordetectionoflowconcentrationsofsomesub-stancesinbiologicalorenvironmentalsamples(technicalRIA/ELISA);
• measurementsofradioactivityinbiologicalandenvironmentalsamples;
CONTACTDr. Nicolae MOCANUPhone:(+4)0214046204Fax:(+4)0214574439Email:[email protected]
Department of Life and Environmental Physics (DFVM)
13
Services (performedinauthorizedlaboratories): • monitoringofenvironmentalradioactivityin
Magurelearea • radioactivitymeasurements(alpha,grossalpha-
beta,gammaspectrometry)inenvironmentalandfoodsamples;
• determinationoftritiumcontentinenvironmen-talsamples;
• individualoccupationalexposuredoseassess-ment(dosimetryfilm,TLD,whole-bodycounter)
• biocompatibilityevaluationofmedicalmaterialsanddevices;
Research groups • GroupofBiophysicsandRadiobiology; • GroupofEnvironmentalPhysics; • GroupofRadioactivityMeasurementsinEnviron-
mentalandBiologicalSamples
Authorized laboratories • EnvironmentalandPersonnelDosimetry(LDPM/
DFVM,[email protected]) • α,β,γSpectrometryandRadonMeasurements
(SALMROM/DFVM,[email protected]) • WholeBodyMonitoring–WholeBodyCounter
(USCIR/DFVM,[email protected]) • BiocompatibilityEvaluationofMedicalMaterials
andDevices(BIOEVAL/DFVM,[email protected])
TheReactorDecommissioningDepartment (DDR)is part of the Centre for the Management of De-commissioningandRadioactiveWasteandcarriesoutnuclearactivitiesincompliancewithanauthor-izedQualityManagementSystem.
DDR’smissionistodecommissiontheVVR-SNu-clearResearchReactorandsafelymanagethespentnuclearfuelresultedfroma40-yearperiodofreactoroperation,constantlymonitoringtheprotectionofpersonnel,population,environmentandproperty.
Intheframeworkofthenationalandinternationalprojects, DDR personnel conduct studies and re-search on the improvement of decommissioningtechniquesandtechnologies:• Spentnuclearfuelmanagement;• Radiologicalcharacterization;• Techniques and technologies for free release of
materials;• Techniquesandtechnologiesfordemolitionand
decontamination;• Dismantlingtechniquesandtechnologies.
CONTACTRadu DEJUPhone:(+4)0214042300(extension5001)Email:[email protected]
Department of Reactor Decommissioning (DDR)
14
Main projects run by DDR:• HEUFuelRepatriationProject-RussianResearch
ReactorFuelReturn(RRRFR)finishedinJune2009;• EUPHAREProjectRO2006/018-411.03.04,partially
finishedinJuly2009;• IAEA Technical Cooperation Project – ROM 04-
029,finishedinNovember2008• US Argonne National Laboratory Technical
Assistance Project BOA 3J-00201, finished inSeptember2007;
• NationalResearch-DevelopmentProjects–EMIT,TISADIN.
Potential customers: RP0ZeroPowerReactor;HelenSub-criticalAssembly;IFIN-HHRadiologicalFacilitiesrequiringdecommissioning.
TheRadioactiveWasteManagementDepartment(DMDR)consistsoftwonational-interestfacilities:• Radioactive Waste Treatment Plant • National Repository for Low and
Intermediate Level Radioactive Waste - Baita, Bihor County.
Thetworadiologicalfacilitiesprovidethemanagement,atnationallevel,oftheinstitutionalradioactivewasteswhicharisefromtheapplicationsofnucleartechniquesandtechnologiesinfieldssuchaseducation,medicine,agriculture,industry(off-nuclearfuelcycle),inordertoassuretheradiationsafetyoftheoperatingpersonnel,populationandenvironment.
DMDRisauthorizedfor:• collectionandfieldtransportofradioactive
wastebyauthorizedvehiclesandspecializedpersonnel;
• confinement-conditioning,storageanddisposalofradioactivewaste;
• gammaspectrometrycharacterizationofradioactivewastewithintheSpectroscopyAnalysisLaboratory(LAS).
DMDRdevelopsandimplementsradioactivewastemanagementtechnologiesforthoseradwasteswhichdonotmeettheacceptancecriteriafordisposal(WAC),accordingtothecurrentregulatoryrequirements,andtechnologiesforlong-termstorageofdisusedsealedsourcescontaininglong-livedisotopes.
Intheframeworkofthenationalandinternationalprojects,DMDRpersonnelconductstudiesandresearchontheimprovementandoptimizationoftheappliedtechnologies,developmentofnewones,aswellasstudiesonbehaviourintimeofradioactivewaste-embeddingmatrices.
CONTACTDr. Felicia DRĂGOLICIPhone:(+4)0214042353Fax:(+4)0214574440Email:[email protected]
Radioactive Waste Management Department (DMDR)
15
TheIRASMCentreoffersawiderangeofservicesforindustryandresearch-developmentandconsistsofthefollowingsubunits:• IrradiationFacility• DosimetryLaboratory• MicrobiologyLaboratory• PhysicalandChemicalTestingLaboratory• LaboratoryforDetectionofIrradiatedFoodAllservicesofferedbytheIRASMCentretoindustryareperformedintheframeofitsqualitymanagementsystemandincompliancewiththeapplicableinternationalstandards.
IRASMcompetencesarerecognizedthroughcertifications,authorizations,accreditationsornotifications.Thus,allIRASMcustomers,particularlythoseworkinginthefieldsofpharmaceuticalsormedicaldevices:• mayprovethefulfillmentoflegalobligations
ontheoutsourcingoftreatmentservices(eg.sterilization),
• maygetandmaintaintheECmark.
The Quality Management System meets the re-quirements of SR EN ISO 9001, SR EN ISO 13485 and ISO 11137 standards and has been continu-ously certified by DQS – Germany since 2002.
CONTACTDr. Corneliu PONTAPhone:(+4)0214042320Fax:(+4)0214575331Email:[email protected]
IRASM – Radiation Processing Centre
DETECTIA ALIMENTELOR
IRADIATE
MICROBIOLOGIE
DOSIMETRIE
IRADIATOR
TESTE
FIZICO - CHIMICE
EVALUAREA BIOCOMPATIBILITATII
(DFVM)
16
Services: • Sterilizationofmedicaldevices,laboratory
devicesandpharmaceuticalpackaging;• Microbialcontrolforpharmaceuticalraw
materials,cosmeticsandfoodsupplements;• Validationofirradiationsterilization;• Microbiological,dosimetry,physical-chemical
testing;• Identificationofirradiatedfoodstuffs.Toprovidethemedicaldevicemanufacturerswithfullservices,theIRASMCenterworksincloserelationshipwiththeLaboratoryforBiocompatibilityEvaluation-DFVM.Thelaboratories’structureandequipment,thedesignandworkingpossibilitiesoftheirradiationfacilityenableIRASMtopromotetheirradiationtechnologiesinindustryandtoprovideproofsofsubstantiality/justificationoftreatmentparameters.
Special services for cultural heritage:Disinsectizationanddisinfectionofthewooden,paper,leatherorparchmentobjectscomingfrommuseums,churches,monasteries,archives,librariesorprivatecollections.
The National Library of Physics islocatedinabuildingrestructuredinlinewiththeneedsofuserspecificrequirements.Itincludesbookandjournalstorage,readingroomswithinternetaccessto‘online’databasesandcollections,meetingrooms.Thereareover400000booksandjournalsavailableinthislibrary.UniquecollectionssuchasPhysical Reviewfrom1908uptopresentdays,Journal of Applied Physicsetc.canbefoundhere.Existingbookscoverawiderangeofsubjectareas,includinggeneralandspecializedphysics(nuclearphysics,optics,materialsphysics,atomicphysics),physics-mathematics,chemistry,manyofthesebooksrepresentingoneofakind.Thelibraryprovides’online’access(up-to-dateandarchives)togeneralandspecializedjournalslikethoseoftheAmerican Institute of Physics, Elsevier, Springer, Institute of Physics,butalsotothe Web of Science.
TheSub-DepartmentcontributestodisseminatingtheresultsoftheInstitutebydesigningandproducingposters,ads,bookswithsummaries,CDsetc.forallthescientificeventsorganizedbyIFINHH.
TheSub-DepartmentalsodealswitheditingthematerialsintendedforthepublicationofthetwoISI-quotedscientificjournals,namelyRomanian Journal of Physics and Romanian Reports in Physics.
TheSub-DepartmentperformsmonitoringandlogisticsactivitiesfortheinternationalcollaborationsoftheInstitute.ThetechnologicaltransferandmarketingactivitieshavebeenreorganizedandwillaimtodisseminatetheactivitycarriedoutbyIFINHH,withaviewtobindingittoeconomyandincorporatingitintotheinterdisciplinaryactivities.
CONTACTDr. Maria DINESCUPhone:(+4)0214574591Fax:(+4)0214574210Email:[email protected]
Sub-Department of Library, Dissemination, Public Relations, Technological Transfer and Marketing
17
WO
RKSH
OP
Radioisotopes & Biomolecules A partnership for the Early Diagnosis and Targeted Radiotherapy of Cancer
• Molecular targets in Imaging and Cancer Radio-Therapy • Targeted therapy / Radioimmunotherapy of cancer• PET Radiopharmaceuticals and process optimisation• Radionuclides production and radiochemistry (positron
emmiters, radiometals, radiohalogens)• Nanotechnology• Molecular biology• Interdisciplinary research
26-28 November 2008, Hotel Caro, Bucharest, ROMANIA
iFiN-HH
Some
Questions
on TritiumContact: Dr Dan Galeriu ([email protected], [email protected]), tel 0214042359, 0726223667
Organized by IFIN-HH on 6 October 2008, room 40 administrative building
?
Wo
rksh
op
Organized by
Horia Hulubei National Institute for Physics and Nuclear Engineering
8th
Meeting
CELL
AR – Co
llabo
ration
of Eu
rope
an Lo
w-lev
el Un
derg
roun
d Lab
orato
ries
June 23-25, 2008Bucharest & “Unirea” Salt Mine, Slanic Prahova, ROMANIA
IFIN-HH
Conferinţa Naţională de Fizică
INSTITUŢII ORGANIZATOARESocietatea Română de Fizică
Institutul Naţional de Fizică şi Inginerie Nucleară „Horia Hulubei” Universitatea Bucureşti – Facultatea de Fizică
Institutul Naţional de Fizica Laserilor, Plasmei şi Radiaţiilor & Inst. de Cercetări Spaţiale Institutul Naţional pentru Fizica Materialelor Institutul Naţional pentru Fizica Pământului
Universitatea POLITEHNICA din Bucureşti – Catedrele de Fizică Institutul Naţional de Opto-Electronică Institutul de Fizică Atomică Academia Română – Secţia de Ştiinţe Fizice
COMITETUL DE ORGANIZAREAlexandru ALDEA – BucureştiNicolae AVRAM – TimişoaraAdrian BOT – Cluj-NapocaFlorin D. BUZATU – BucureştiAlexandru CALBOREANU – Co-ChairmanGh. CĂTADANIL BucureştiHoria CHIRIAC IaşiVictor CIUPINĂ – ConstanţaRadu CONSTANTINESCU – CraiovaMaria DINESCU – BucureştiŞtefan FRUNZĂ BucureştiDumitru HAŞEGAN BucureştiAlexandru JIPA – BucureştiTeodor JURCUŢ – OradeaGheorghe MĂRMUREANU – BucureştiRareş Victor MEDIANU – BucureştiGheorghe POPA – IaşiIon V. POPESCU – TârgovişteMirela PRAISLER – GalaţiRoxana SAVASTRU – BucureştiHoria SCUTARU – BucureştiSimion ŞIMON – Cluj-NapocaIoan ŞTEFĂNESCU – RmValceaPaul STERIAN – BucureştiMihai TOMA – IaşiIlie TURCU – PitestiIoan URSU – SecretarDumitru VULCANOV – TimişoaraNicolae Victor ZAMFIR Chairman
COMITETUL DE PROGRAMŞtefan ANTOHE – BucureştiDumitru CHIRLEŞAN – PiteştiMagdalena CIUREA – BucureştiOnuc COZAR – Cluj-NapocaAdrian DAFINEI – BucureştiTraian DASCĂLU – BucureştiAntoaneta ENE – GalaţiDan GALERIU – BucureştiVioleta GEORGESCU – IaşiMihai GÎRŢU – ConstanţaVoicu GRECU – BucureştiDan GRECU Chairman Cornel HAŢEGAN – Bucureşti Petre ILIE – PiteştiDan IORDACHE – Bucureşti Cristina MĂRGEANU – PiteştiIon MORJAN – BucureştiGeavit MUSA – ConstanţaSergiu NISTOR – BucureştiAurel POPESCU – BucureştiMircea RADULIAN – BucureştiOdile SALIU – CraiovaSabina ŞTEFAN – BucureştiCristian TEODORESCU – BucureştiIoan TURCU – Cluj-NapocaMihaela VĂLEANU – BucureştiValentin I. VLAD – BucureştiMihai VIŞINESCU – BucureştiGheorghe ZET – Iaşi
10–13 septembrie 2008Facultatea de FizicăBucureşti – Măgurele
Secretariat: Margareta OANCEA ([email protected])Societatea Română de Fizică (pentru CNF-2008)
c/o Institutul de Fizică şi Inginerie Nucleară „Horia Hulubei”Str. Atomiştilor 407, PO Box MG-6, Bucureşti (Măgurele)
Tel ++40-21-4042300 /3600; 4042355.www.ifi n.ro/cnf2008
CNF2008
Wor
ksho
p Exp
lorato
riu
La Taifas cu Diaspora: Fizica Româneascã Încotro?
Institutul Naţional de Fizică şi Inginerie Nucleară “Horia Hulubei” • 17-18 Septembrie 2008
http://www.diaspora-stiintifica.ro/
QMSin Radiation Processing Facilities
Establishment & Implementation of Quality Management System
Regi
onal
Tra
inin
g Co
urse
(C7-
RER-
8.01
7-00
2)
12 - 16 October 2009, Bucharest, Romania
Organized by
IFIN-HH
Organized by
• Abdus Salam International Centre
for Theoretical Physics (ICTP), Trieste, Italy
• International Atomic Energy Agency (IAEA),
Vienna, Austria
• Horia Hulubei National Institute
of Physics and Nuclear Engineering
(IFIN-HH), Bucharest, Romania
• Lucian Blaga University, Sibiu, Romania
Sponsors
The European Office of Aerospace Research &
Development (EOARD)
Romanian National Authority for Scientific Research
(ANCS)
Directors
Alexandru Aldea, National Institute of Materials
Physics, Bucharest, Romania
Sandro Scandolo, ICTP Trieste, Italy
Agnes Safrany, IAEA, Vienna, Austria
Scientific Secretary
Dragoş-Victor Anghel, Victor Bârsan
IFIN-HH, Bucharest, Romania
Local organizers
Constantin Oprean, Claudiu Kifor, Dan Chicea,
Aurel Pasca, Lucian Blaga University, Sibiu, Romania
Workshop on
Trends in nanoscience:
theory, experiment, technology
TOPICS
• Transport phenomena in nanosystems
• Nanophotonics
• Mechanical and optical properties of nanosystems
• Nanomagnetism
• Semiconductor nanotechnology
• Medical use of nanomaterials
• Radiation synthesis and characterization
of nanostructured materials
August 23-30, 2009, Sibiu, Romania
http://zamolxes.theory.nipne.ro/nano09/Courtesy of TASC National Lab. and SISSA, Trieste, Italy
Organized by • Abdus Salam International Centre for Theoretical Physics (ICTP), Trieste, Italy• Horia Hulubei National Institute of Physics and Nuclear Engineering (IFIN-HH), Bucharest, Romania
SponsorsICTP, Trieste, ItalyIFIN-HH, Bucharest, RomaniaThe Office of Naval Research, Washington DC, USADirectors
Michael Flatté, University of Iowa, USA Ionel Ţifrea, California State University, Fullerton, USA Giovanni Vignale, University of Missouri, Columbia, USA Marco Polini, Scuola Normale Superiore, Pisa, ItalyLocal organizers
Mikhail Kiselev (ICTP, Trieste, Italy)Victor Barsan (IFlN-HH, Bucharest, Romania)Dragos-Victor Anghel (IFlN-HH, Bucharest, Romania)LecturersCarlos Egues,
University of Sao Paulo, BrazilAlexander Efros, Naval Research Laboratory, Washington DC, USARosario Fazio,
Scuola Normale Superiore Pisa, ItalyKimberley Hall, Dalhousie University, CanadaCsaba Jozsa,
University of Groningen, The NetherlandsTomas Jungwirth, Academy of Sciences, Prague, Czech Republic and University of Nottingham, U.K.Paul Koenraad,
Eindhoven University of Technology, The NetherlandsDaniel Loss,
University of Basel, SwitzerlandMartino Poggio, University of Basel, SwitzerlandRoberto Raimondi,
Università di Roma Tre, Italy
Advanced Workshop onSpin and Charge Properties of Low Dimensional Systems
TOPICS
• Spin-Electronic Phenomena in Low Dimensional Systems• Quantum Dot Devices for Quantum Computation• Novel Theoretical Approaches at the Nanoscale• Electronic and Spin Transport in Quantum Wells and Quantum Dotshttp://www.theory.nipne.ro/AWLDS2008/
29 June - 4 July 2009, Sibiu, Romania
Work
shop
Laboratorul de evaluare a biocompatibilităţii materialelor medicale
Organizatori: IFIN-HH, RENAR18 aprilie 2008, orele 900 - 1200, IFIN-HH – Sala de seminar TANDEM
BioEval
Con
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… C
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Con
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ww
.ifin
.ro/
imag
inea
_fizi
cii
Tu cum îţi imaginezi fizica?
Nu spune în cuvinte! Desenează!
Cu liniile, formele, culorile ei!
IMAGINEAZĂ-ŢI FIZICA!
pentru că…
Imaginaţia este mai importantă
decât cunoaşterea.
(Albert Einstein) Con
curs
… C
oncu
rs…
Con
curs
… A
ştep
tăm
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aţiil
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u
imaginea fizicii
Services • Post-secondaryandpost-graduatetraining
forthepersonnelinvolvedinpracticeswithionizingradiationsourcesoradvancedphysicaltechniques
• Radiationprotectiontrainingofoccupationallyexposedworkers
• Specializationsforpersonnelinvolvedinnuclearresearch
Programmes curricula are constantly sized to training objectives, knowledge level of participants, specific regulatory requirements.
Training courses may be conducted at beneficiary’s site.
Training Activities• Current Training Programmes- Radiationprotectioninuseofnucleargauges- Radiationprotectioninuseofradiological
equipmentforpackagecontrol- Radiationprotectionindiagnosticand
interventionalradiology- RadiationprotectioninNuclearMedicine- RadiologicalSafetyinRadiotherapy- RadiologicalSafetyinuseofsealed/unsealed
radiationsources- KnowledgeupgradeonRadiologicalSafetyin
useofsealed/unsealedradiationsourcesandradiationgenerators.
- Radiationsafetyinminingandprocessingofuraniumandthoriumores
- Applicationsofradioisotopesandnuclearradiationsources(complexprogramme)
• Training on request- Radiationprotectionindecommissioningof
nuclearfacilities- Transportofradioactivematerials- Radioecology- Otherspecialapplications
CONTACTGabriel STANESCUPhone:(+4)0214574279(+4)0726793435Fax:(+4)0214574279Email:[email protected]@nipne.ro
Nuclear Training Centre (CPSDN)
18
Resources • Properlyequippedclassrooms• Laboratoriesforpracticaltrainingindosimetry• Expertsandspecialistsaslecturers
Member • EUTERP(EuropeanTrainingandEducationin
RadiationProtection)• ENEN(EuropeanNuclearEducationNetwork)
Brief History • 1970:EstablishmentofNuclearWorkersTraining
Centre(CPSCDN)• 1996:CPSCDNbecamedepartmentwithin
IFIN-HH• 2007:CPSCDNbecameNuclearTrainingCentre
(CPSDN)
Important achievements (1970 - 2009) • Post-graduatespecializationprogramonthesafe
useofradioactiveisotopes• Trainingforpersonnelinvolvedinactivitieswith
ionizingradiationsources• Specializationprogramsforpersonnelinvolved
innuclearpowerprogram(forCernavodaNPPUnit1)
• SpecialtrainingondecommissioningofVVR-SResearchReactor
• CertificationofCPSDNQualityManagementSystemaccordingtoENIS09001:2000,byTÜVHESSEN,in2007
• Developmentofadedicatedwebsite:cpsdn.nipne.ro
• Shotbalance1970-2009:over780trainingprogramsand19000graduates
231372 397
647716 685
572
15 21 23 27 31 31 27
2003 2004 2005 2006 2007 2008 2009
Last Years Balance
training programsgraduates
RadiationMetrology,TestingandDosimetryGroup(CMIRD)ofDRMRinIFIN-HHconductsresearchintodevelopmentofcalibrationmethodsandmeasure-mentmeans in thefieldof ionizing radiation (do-simetryandrelatedfields).Moreover,thestaffalsodevelopstestingmethodsfordeviceswithbuilt-inionizing radiation sources or devices intended forionizing radiation applications (industry, medicine,environment,nationaldefenceandsecurityetc.
CMIRD carries out its activity on the basis of a Quality Management System developed in ac-cordance with SR-ISO-17025:2005.
IFIN-HH, via CMRID, is an institute designated atEURAMET (European Collaboration în Measure-ment Standards),andin2010isaninstituteassoci-atedtothisEUbody.
Thegroupisorganizedintwolaboratories:- Calibration Laboratory- Testing and Nuclear Expertise Laboratory
BothlaboratoriesaredesignatedbyCNCANasnoti-fied laboratories (LE05/2009), (LI06/2009)andac-credited by RENAR (certificate of accreditation LE011–Calibration,certificateofaccreditationLI777-Testing).
Calibration
Calibration of radiometry and dosimetry devices• Alpha,beta,gamma-raycontaminometers;• Absorbeddose,X/gamma-raydosimeters;• Doseequivalent,X/gamma-raydosimeters;• X/gammaexposimeters;• Absorbeddose,X/gamma-rayratemeters;• Doseequivalent,X/gamma-rayratemeters;• Beta-raydoseratemeters;• Exposure,X/gamma-raydoseratemeters• Beta,gamma/X-raythermoluminescence
dosimetrysystems;• Globalalphaand/orbetameasurementsystems.
Calibration of ionizing radiation sources• Gamma/X-rayemittingsourcesforabsorbeddose
rateat1mdistance;• Gamma/X-ray emitting sources for dose equiva-
lentrateat1mdistance;• Gamma/X-ray emitting sources for kerma rate at
1mdistance;• Gamma/X-rayemittingsources forexposurerate
at1mdistance;• X-raygeneratinginstallations.
Calibration of devices used in medicine forchecking the parameters of radiological installa-tions.
Testing1.Testsforionizingradiationdetectorsanddosim-
eters/dose ratemeters at dose/dose rate valuesofionizingradiationlessthan,equaltoorhigherthanthenaturalbackground;
2.Testsformaterialsbyexposuretoionizingradia-tion;
3.Determining radiological characteristics of X-raygeneratingequipment;
4.Areadosimetrymeasurements;5.Testsandmeasurementsspecific toairfiltration
systemsandcleanrooms;6.Mechanical tests (vibrations, free fall on flat sur-
facesortargets,rolling,overturn,crushing,mea-surementsofnoiselevel,weight,sizes,time);
7.Climatic tests (temperature, humidity, pressure,airflow);
8.Electricaltests(forthefollowingparameters:cur-rent,absorbedpower,variationsofsupplyvoltageandfrequency,voltagestability,electromagneticdisturbance,insulationresistance,dielectricrigid-ity, electric security conditions, case protection,protectionagainstwaterpenetration);
9.Testsfordeterminingsomecharacteristicsfor:• Radiationsources;• Detectorsandtransducers;• Dosimetryandradiometrydevices;• Contaminometers and contamination moni-
tors;• Gammaspectrometers;• Contaminationmeasurements;• Monitorsforliquidandgaseouseffluents,aero-
solsandtritium;• Radioisotopeindustrialapplications;• Radiochemicalsandradiopharmaceuticals;• Protectivecontainersfortransport,storageand
handling;• Radiationmeasurementsystems;• Defectoscopyequipment.
CONTACTPhone:(+4)0214042338Fax:(+4)0214046189Email:[email protected]
Ionizing Radiation Calibration-Testing LaboratoryRadioisotopes and Radiation Metrology Department
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TestingandCertificationofComplianceofRadiop-harmaceuticals, Radiochemicals and RadioactiveSourcesLaboratory(CPRLAB)assessesandcertifiesthe compliance of radiopharmaceuticals, radio-chemicals and radioactive sources by appropriatenucleartestingmethods.
Themain goalofCPRLABactivity,which isgivenconstantattention,istoproperlyperformthetestssothattheymeet:•therequirementsof:SR EN ISO/IEC 17025:2005
standard – General Requirements for the competence of testing and calibration laboratories, national regulatory bodies or theorganizationsgivingtherecognitionforensuringthe quality requirements for those radioactiveproductstestedinthelaboratory,
•theclients’needsaccordingtotheirrequirementsanddeclaredmethods.
This Laboratory performs tests for:•Radioactive products (radiopharmaceuticals, ra-
diochemicalsandradioactivesources)producedinDRMRofIFIN-HH;
•New radiopharmaceuticals under research orvalidation;
•Surveys of radioactive sources and radioactivewasteuponcustomer’srequest;
•Monitoringandsurvey: liquideffluentscertainlyradioactiveorundersuspicionofbeingradioac-tive, arisen from nuclear practices; waters fromthecoolingpondforspentnuclearfuelrodsre-sultedfromthe2MWVVR-SNuclearResearchRe-actor(currentlyunderdecommissioning)inIFIN-HH.
As a result of the tests performed here, CPRLABissues: laboratory reports, laboratory notes, certifi-catesofqualityanddeclarationsofconformity.
CPRLABiscurrentlyrecognizedbyCNCAN(theNa-tionalCommissionforNuclearActivitiesControl)bynotification LI 14/2007 and RENAR (Romanian Ac-creditation Association) by certificate of accredita-tionLI731.
TheactivitiesofCPRLABcoverthefollowingareas:• Qualitycontrolfortheproductsofthe
ProductionGroupintheDepartment(sealedradiationsources,radiopharmaceutical);
• Physical-chemicalandradiochemicalanalysisfortheproductsunderstudyintheresearchcontractsinprogressintheDepartment;
• Servicesontestingandcertifyingthecomplianceofradiopfarmaceuticals,radiochemicalsandradioactivesources;
• Advisoryserviceon:characterizingthematerialsbygammaspectrometry,preparingdocumentation,gettingthenecessaryapprovalsfromCNCAN(theNationalCommissionforNuclearActivitiesControl)toreleasefromregulatorycontrolthematerials,equipmentetc.fromthecontrolledareasofthenuclearfacilities(forthosenuclearfacilitiesunderrearrangement,decommissioning,reauthorization);
• MonitoringthequalityofwaterinthestoragepondsforradioactivefuelfromtheVVR-SNuclearResearchReactorofIFIN-HH.
CPRLABmainlyconductsthefollowinganalyses:•Radionuclidicpuritydeterminationbygamma
spectrometry;•Leakagetestingforsealedradioactivesources;•Radioactivitydetermination;•pH;•Conductivitydetermination;•Qualitativeandquantitativedetermination
ofmicroelementsbyatomicabsorptionspectrometry;
•RadiochemicalpuritydeterminationofNa131Ibyhigh-performanceliquidchromatography(HPLC);
•chemicalconcentrationdeterminationbyUV/VISspectrometry;
•Gammaradiochromatography;•Measurementofremovableradioactivesurface
contamination;•Measurementofdoseequivalentrate;•Othertestsbyanalyticalmethodsuponrequest
ofbeneficiaries.
Laboratory for Testing and Certification of Compliance for Radiopharmaceuticals, Radiochemicals and Radioactive Sources Radioisotopes and Radiation Metrology Department
CONTACTPhone:(+4)0214042350Fax:(+4)0214574945Email:[email protected]@yahoo.com
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IFIN-HH is designated by the Romanian Bureau of Legal Metrology (BRML) as theownerof thePrimaryStandardofActivity(Becquerel),accordingtotheListofsignatoryinstitutesoftheAgreement of the International Committee of Weights and Measures – Mutual Recognition Arrangement (CIPM-MRA).[http://www.bipm.org/utils/en/pdf/signatories/.pdf]
ItsrepresentativeinthefieldinvolvedistheRadionuclide Metrology Laboratory (LMR),whichprovidestheEquivalence of the Primary Standard of Activity,viaparticipationintheKeyandSupplementaryComparisonsorganizedbytheInternationalBureauofWeightsandMeasures(BIPM)accordingtoAppendixBofCIPM-MRA:KeyComparisonDataBase(KCDB).[http://kcdb.bipm.org/AppendixB/KCDB_ApB_search.asp].
LMRalsoprovidestheinternationalrepresentationofIFIN-HHinthefollowingbodies:• IFIN-HHisamemberoftheConsultative
CommitteeforIonizingRadiations,SectionII,RadionuclideMeasurement,[CIPM-CCRI(II)];[http://www.bipm.org/en/committees/cc/ccri/CCRIsection2/members_ccrisection.html]
• IFIN-HHisamemberoftheInternationalCommitteeforRadionuclideMetrology(ICRM),[http://www.physics.nist.gov/icrm]
LMRhasimplementedtheQualityManagementSystem,approvedbytheTechnicalCommittee-Quality(TC-Q)ofEUROMET.34filesofCalibrationandMeasurementCapabilitiesinthefieldofradionuclidemeasurementareinternationallyrecognizedandpublished.AppendixCofCIPM-MRA:CalibrationandMeasurementCapabilities,CMCs.[http://kcdb.bipm.org/appendixC/default.asp]
National certifications
Notified as Calibration Laboratory forActivity(Bq),accordingtoSRENISO/IEC17025:2005,CNCANnotificationLE05/2009.RENAR-Accredited Laboratory,accordingtoSRENISO/IEC17025:2005;• CalibrationLaboratoryinthefieldofActivity(Bq),
certificateLE013/2009;• TestingLaboratory,certificateLI804/2009:
Determinationoftheactivityoflow-levelradioactivesamples.
Authorizedproducerandsupplierofsetsofstandardradioactivesourcesandsolutions:
Radiological Safety AuthorizationsissuedbyCNCAN:IO106/2006,IO040/2009,IO041/2009,IO042/2009,IO043/2009
Services and products: • Calibrationofradioactivesourcesandsolutions
producedinIFIN-HHorimported;• Calibrationofactivitymeasuringdevices:
radionuclidecalibrators,radiochromatographs,LSCcounters,gammaspectrometrysystems;
• Measurementoftheactivityoflow-levelradioactivesamplesfrom:environment,foodchain,industry;
• Organizationofinterlaboratorycomparisons(proficiencytesting)onthemeasurementoftheactivityoffood,environmentalfactors,radiopharmaceuticals;
• Productionanddeliveryofradioactivestandards:- Standardradioactivesolutionsof10
radionuclides;- Alphaandbetapointorareasources;- Gammapointorvolumesources,with
matrices:waterequivalent,soil,zeolite.
Equipment:• Equipmentforabsolutestandardizationby
4pPC-gcoincidencemethod;• Equipmentforabsolutestandardizationbyliquid
scintillationmethod(LSC-TDCR);• Equipmentforcalibrationbygamma
spectrometrymethod,withGeHPdetector;• Equipmentforrelativecalibrationbythemethod
ofpressurizedionizationchamber• Analyticalbalancesandmicrobalances.
Customers:• ResearchInstitutesandUniversities;• NuclearPowerPlantinCernavoda;• NuclearMedicineUnitsinHospitals;• CountyDirections:PublicHealth,Sanitary-
Veterinary,FoodSafety,EnvironmentalProtection.
CONTACTPhone:(+4)0214046163Fax:(+4)0214574945Email:[email protected]
Radionuclide Metrology LaboratoryRadioisotopes and Radiation Metrology Department
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Principle:An ion scattering experiment can determine themassofthetargetnucleus(usingtheconservationofenergyandmomentumK),thedepthofthetar-getnucleus(usingtheenergylossasafunctionofdepthinthetargetdE/dx),andtheconcentrationof the target using the calculated cross-sectionsδσ/δΩ).
Equipment:Differentbeams(He,D,N)deliveredbytheU-120Cyclotron with energies of 1.8MeV up to 10MeVare transported via beam line with ion opticsat the end station (reaction chamber) providedwithtwogoniometricsystems,targetholder,twoparticle detectors and corresponding electronics(spectrometricchainanddataacquisition).
Laboratory for Elemental and Structural Analysis of Nanostructured Materials using Rutherford Backscattering Spectrometry (RBS) Applied Nuclear Physics Department
CONTACTPhone:(+4)0214042367Fax:(+4)0214574440Email:[email protected]
Field of interested users: R&Dlaboratoriesinvolvedinnanostructuredmaterials,semiconductorindus-try,microandnanoengineeringcompanies.
Specific analyses performed (examples)
Composition analysis:Experimental(red)andsimulated(blue)RBSspec-traforanTi0.47Ni0.43Nb0.10alloyhavingpropertiesofshape memory. (individual simulated spectra forconstituent elements are shown on the bottomwithcoloredlines).Surface contaminated layer with light elements(C, O) analyzed with deuteron beams had 90nmthickness and 65% carbon with 35 oxygen com-position.
Depth profiling of elemental concentration:ExperimentalandsimulatedRBSspectra(left,middle)andcorrespondingcalculatedconcentration(right)foraburiedoxygenlayerinSibeforeandafterthermalannealingat1000oC
0 50 100 150 200 250 3000
10000
20000
30000
40000
Semnale pentru Si
Semnale pentru Ti de aderenta Semnale pentru Zr
Nr. e
veni
men
te
Energie [10keV/can.]
exp. sim.
?
RBS cu He+ la 2,7MeV pentru proba P3
0 100 200 300 400 500 6000
200
400
600
800
1000
1200
Nr. e
veni
men
te
Energie(10keV/canal)
exp.sim.
Zr
ZrZr
Zr
Zr
TiTiTi Ti
Ti
Strat de Ti de aderentaSi
RBS cu N3+ la 9,65MeV pentru proba P3
Thickness of nanostructured layers:Experimental and simulated spectra for RBS analysis for 5 pairs of ZrN/TiN layers having 15nm/layerdepositedonSiwithaTibufferlayerof300nmobtainedusing2.7MeVHebeam(left)and9.65MeVNbeam(right);theuseofNbeamleadstobettermassseparationaswellasbetterdepthresolution.
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The‘ACTIVA-N’MaterialsTestingLaboratoryhasdevel-opedinthefieldofappliedresearchfocusedontheuseofnuclearandatomictechniquesthatimplyde-tectionandanalysisofgammarays(g)andopticalandX-rayfluorescence,respectively(XRF).
TheimplementationoftheQualityAssuranceSys-teminourcurrentactivity,accordingtotheISO17025Standard, as trained by the IAEA lectors within theframeworkoftheRegionalRER02-004projectintheperiod1999-2003wasappreciatedbytheinternation-ally authorized expert - Auditor who visited us onthe occasion of the official assessment in 2003, andplacedusinthearenaofthe“technicalperformancecompetition”; the official assessment (accreditation)was successfully achieved in May 2004. Since then,getting and ensuring performance at the Europeancompetitive level has become a permanent goal oftheLaboratory’sactivity.
Atpresent,theManagementSystemiscurrentlyap-pliedincompliancewiththeSRENISO/CEI17025:2005Standard, which ensures the validity of our experi-mentalresultsbyvalidationoftheanalyticalmethodsemployed,traceabilityofthephysicalmeasurementstotheInternationalSystemofUnits,andevaluationofthemeasurementuncertaintyaccordingtotheInter-nationalStandardsandGuidelinesrequirements.Specific Applications• Determinationofactivity/Monitoringofactivity/
Control of radioactive contamination of samplesbytheGamma-rayspectrometry(‘Gamma-Spec’)techniqueusingtheISSAinstallationinlaboratory;
• Determination of the elemental composition ofmaterialsbythe InstrumentalNeutronActivationAnalysis(INAA)-theinstrumentalversionofNAAwhich relies on the gamma-ray spectrometricanalysisofsamplesirradiatedinthenuclearreac-tor TRIGA (14 MW), and/or by the atomic spec-trometry techniques based on the Optical Emis-sion(OES)andtheX-rayFluorescenceradiation.
Analytical ServicesA-ActivityDetermination:• Identificationof thegamma-rayemittingnuclides
intheenvironmentalsamples (aqueoussolutionsof100ml,andsoilof~100g)andinsmallsamples(ø≤8mm)analyzedbyINAA,anddeterminationoftheiractivityvaluesby‘Gamma-Spec’applicationsinLaboratory;
• Control of the radioactive contamination in envi-ronmentalsamplesbyin-situanalyses,inmeasure-mentgeometriesidenticaltothoseusedinlabora-tory, by similar ‘Gamma-Spec’ applications, usingthe‘Gamma-Port’spectrometer.
B-ElementalAnalysisAnalysis of the elemental composition of metallicmaterials (steels, metallic biomaterials, other alloys)onsmall samples (Φ≤8mm)usingthe INAAtech-niqueandCRM(CertifiedReferenceMaterials),orthe‘ko’method,and/orusingoftheatomicspectrometry
techniques (OES, XRF) applied on metallic sampleshaving‘disk’geometry.C-AdvisoryServiceOffered to the analysts who work and use Gamma-ray Spectrometry technique in laboratories for thecontrol of radioactive contamination of water (net-worksoftheMinistryofHealthandEnvironment)or/andofotherradioactivematerials.Equipment/Calibration• The‘ISAA’and‘GammaPort’spectrometryinstalla-
tions (ORTECtype)haveHPGedetectorswith thefollowingcharacteristics:high-resolutionof1.9keVatthe1332.5keVenergyof 60Co,30%relativeeffi-ciency,dedicatedsoftware(recentversions),andPbshield to reduce the g-ray background present intheenvironment.
• The OES and XRF Spectrometers have been cali-brated with MRC materials on the basis of a soft-ware system developed by the producer (OxfordInstruments)beforedelivery(October2007).
Traceability The spectrometry equipment was calibrated withradioactivesourcesproducedby institutesacknowl-edgedbyBIPM,andourbalancewascalibratedbytheNationalInstituteofMetrology(INM);alltheseandtheuseofCertifiedReferenceMaterials (CRM)producedby European Reference Institutes ensure a directtraceability of the activity and elemental concentra-tionstotheInternationalSystemofUnits.Detection Limits• Minimumdetectableactivity(MDA);
RangeoftheMDAinsolutions:(5-1)Bq/kgRangeoftheMDAinsoil:(0.5-0.2)Bq/kg
The minimum activity values depend on the specific spectra of gamma radioactive nuclides in the analyzed samples, matrix characteristics and sample’s mass.• Minimumelementalconcentration:(1-0.1)ppm/g.The minimum values of the element concentrations ad-ditionally depend on the nuclear characteristics of the ac-tivation reactions and on the irradiation conditions.Validity of results is assured by:• AnnualassessmentofLaboratory’sperformanceby
participationininternationalProficiencyTestingex-ercises,
• CooperationwithlaboratoriesandexpertsfromUK,Poland,Netherlands,Belgium,Sweden,IAEA(Vien-na),
• Communication of results in international Confer-ences/Workshops, followed by the publication inISI-quotedjournalsdedicatedtonuclearfield,
• Certificationof the laboratory’sheadby theEuro-peanOrganizationofQuality (EOQ)-Vienna (2008)onassessmentofexperimentaldataandpersonneltrainingbydoctoralstudiesandtrainingcourses.
Authorizations • CNCANauthorization:ST014/008;• Designation as Notified Testing Laboratory by
CNCANnotificationLI12/2008.
‘ACTIVA-N’ Materials Testing Laboratory Applied Nuclear Physics Department
CONTACTPhone:(+4)0214042373Fax:(+4)0214574440Email:[email protected]
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BIOEVAL is part of the Life and EnvironmentalPhysics Department in IFIN-HH and has applied aqualitymanagementsystemfortestinglaboratories,according to SR EN ISO/IEC 17025:2005 (GeneralRequirements for the competence of testing/calibrationlaboratories)andISO10993documentsused in the evaluation of effects of medicalmaterials and devices upon human body. ByfollowingthecompliancewiththeseEUstandards,BIOEVAL makes available to the customers aworkingstructurethatmayoffervalidresultsinthebiocompatibility evaluation of medical materialsanddevices.
Biocompatibility is defined as the compatibilitywith the living tissue or a living system by lackof toxicity, injury or physiological reactivity andwithout causing immune rejection. In the case ofmedicaldeviceswhichcomeintocontactwiththehumanbody,fortreatment,diagnosisorprosthesis,it ishighly important tomakesureall thecontactpoints do not cause irritation, changes in bloodcompositionordonotpresenttoxicity.
Biocompatibility evaluation of medical materialsand devices represents an essential control of theproducts widely used in medical practice. Thisevaluation ismadebeforetheclinicalstudies–aspart of the global characterization process of thesafetyofadeviceormaterial.ThebeststartpointforunderstandingthebiocompatibilityrequirementsisISO10993standard.
CapabilitiesWithaproperinfrastructure,state-of-the-artequip-ment and qualified personnel, BIOEVAL performshigh technical level analyses, testing medical ma-terialsanddevicesinaccordancewiththerequire-mentsofSRENISO10993-5:2003-Invitrocytotoxic-itytestsandSRENISO10993-10:2002–Irritationandretardeffecthypersensitivitytests.
BIOEVALhasanareadedicatedtocellcultures,withclean rooms providing separation and control ofmaterial and personnel flows. BIOEVAL has also aproperanimalhousingunitthatensuresthemicroandmacroclimateforexperimentalanimalresearch.
BIOEVALprovidesexpertisefor:• Cytotoxicitytesting(SRISO10993-5):cytotoxicity,
astandardizedandfasttest,isaverysensitiveandlowcostmethodtodeterminewhethermaterialscontain significant amounts of harmful extractsand what their effect upon cell componentswouldbe.Cytotoxicity is investigatedbyinvitrotestsobservingthecellviabilityandmorphologyafterexposureofL-929cellculturestoagent.
• Irritabilityandallergenicitytesting(SRISO10993-10): adverse effects occurring on experimentalanimalwhenexposingtheanimaltothedevicematerialorwhentheextractionliquidofamedi-caldeviceistopicallyappliedonanimal.Biocom-patibilityevaluationbyinvivotestscanbedonebyestimatingthepotentialofamedicaldevice,materialsortheirextractstoelicitcontactdermalallergiesinanimals.
ServicesBIOEVALprovidesservicesonsomeofthespecifictest required to evaluate the biocompatibility ofmedicalmaterialsanddevices;
In vitromethodsfortestingcytotoxicity:•Evaluationofcellculturesbyagardiffusion;•Evaluationofcellculturesbyelutiontest.In vivomethodfortestingirritabilityanddelayed
hypersensitivity:•Guineapigsmaximizationtest.
Potential customersValidation of medical materials and devices hasbecome more problematic than ever because ofmany new materials and stricter post-processing.Wideuseofmedicalmaterialsanddevicesinmedi-cal practice, without an auditing and certificationsystem,isnotrecommendedforpatients(Directive93/42/CEE on medical devices) since they may af-fect physical integrity and even, in extreme situa-tions,patients’lives.
Tounderstandtheessentialcontrolofproductsandtoavoidthedangerforpatients,themedicalmateri-alsanddevicesmustbeproperlytested,inaccord-ancewithISO10993,beforetheyaremarketed.
TheservicesprovidedbyBIOVALfocusonEUdirec-tives and regulations which affect the economicagents involved in research, development, manu-factureordistributionofproductsandservicesfordiagnosis,treatmentandpreventionofmedicaldis-easesanddisorders.
Laboratory for Biocompatibility Evaluation of Medical Materials and DevicesLife and Environmental Physics Department
CONTACTPhone:(+4)0214046204Fax:(+4)0214574439Email:[email protected]
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Environmental and Personnel Dosimetry LaboratoryLife and Environmental Physics Department
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EnvironmentalandPersonnelDosimetryLaborato-ry(LPDM)ispartoftheLifeandEnvironmentalPhys-icsDepartmentandconsistsoffourdistinctunits:• Personnelmonitoringunitwiththermolumines-
centdosimeters(USD-TL);• Personnelmonitoringunitwithphotodosimeters
(USF);• Gammaspectrometryanalysisunit(UMAP);• Environmental radioactivity monitoring unit
(UMRM).
LDPM is accredited by RENAR (certificate of ac-creditation LI 680/2008) and renotified by CN-CAN (certificate of designation LI 07/2009) for each unit.
Personnel monitoring unit with thermo-luminescent dosimeters (USD-TL)
USD-TL delivers monitoring services for peopleworking in authorized nuclear facilities, provid-ing logistics: thermoluminescent detector-baseddosimeter, delivery and communication of results,dataarchiving.Measurementrangeofdoseequiva-lent–H(10)–is10μSv-100mSv,withuncertaintyofmaximum12%.USD-TLmakesthedataavailabletoany beneficiary who requested them, these databeing achieved for a minimum 30-year period.USD-TLalsoprovidesspecializedassistanceonopti-mizingtheworkplacesinordertomitigatethedosereceivedbythepersonnelbymappingthedosesintheworkingpoints.
Personnel monitoring unit with photodosimeters (USF)
USF provides services with respect to: dosimetricfilm-based monitoring for the personnel occupa-tionally exposed to ionizing radiation, gatheringmonitoring data and archiving dosimetry reportsandsamples.
USFcooperateswithUSD-TLforintercomparisonof results of the personnel simultaneously moni-tored by both methods. USF’s activity is carriedout in three areas especially designed for person-nelmonitoringunderqualityconditions:customerservice,technologicalareaforchemicalprocessingofphotographicfilmandarchives.
CONTACT
LDPM, USD-TL, UMRMPhone:(+4)0214046224Fax:(+4)0214046190(+4)0214574439E-mail:[email protected]:(+4)0214046194E-mail:[email protected]:(+4)0214042358E-mail:[email protected]
Gamma spectrometry analysis unit (UMAP)
UMAPperformshighresolutiongammaspectrom-etry.
The installation for measuring the activity bygammaspectrometryconsistsof:• ORTECHp-Gesemiconductordetector,rel.eff.
35%HV=2000V,withbuilt-inpreamplifierandcooledFETt;
• DigiDartmonoblocksystemfordataacquisitionandprocessing;
• PCandMAESTROsoftware.Theenergyrangeofthisinstallationis:
(50…2000)keV.
Environmental radioactivity monitoring unit (UMRM)
UMRM provides collection, processing and meas-urementof:• Environmentalsamples:soil,sediment,water(sur-
face,underground,seaanddrinkingwater),veg-etation(spontaneousandcultivated),air(aerosolsfixedonfilters);
• Foodsamples;• Industrialsamples(buildingmaterials,wastearis-
ingfromtechnologicalprocessesetc.).
The Laboratory also provides monitoring of envi-ronmentalradioactivityusingtheThermolumines-cent Dosimetry System for Environment – SDTM.The ambient dose equivalent - H*(10) given byphotonradiation,at1mabovethesoil,isalsodeter-mined.PassivedosimeterswithLiF-basedthermo-luminescentdetectors(e.g.LiF:Mg,Cu,P)areusedinthislaboratory.Thedetectorshavethefollowingcharacteristics:integrating-type,negligibleinforma-tionlossforamonitoringperiodrangingbetween1-90days.
The data are recorded, gathered and archived.Uponrequest,theymaybemadeavailabletothecompetent environmental monitoring institutionsfromhomeandabroad.
Gross alpha, beta and gamma measurements areperformed.
CapabilitiesSALMRONisacompetenttestinglaboratorywhoseactivity is carried out in accordance with SR EN/ISO17025:2005standard, in IFIN-HH,LifeandEn-vironmentalPhysicsDepartment–DFVM.Set-upofworkplaceandprovisionoflaboratorywithmodernresearchequipmentwereachievedwithintheCEEXProject, Module 4, Contract 108/2006. Our workteam consists of specialists with wide experiencein:developingionizingradiationdetectors–ioniza-tionchambers–validatedandpatented,complexmeasurementandmonitoringsystems,spectrom-etrysystems, systems formonitoringatmosphericRadonandalpharadioactivegases,measuringtheparameters for radiation detectors/transducers forindustrial, medical, laboratory or research applica-tions.
SALMROMisoutfittedwithportableandlaboratorydevices, high performance equipment for a widerangeofspectrometricmeasurements,tests,inlinewith the European directives and national legisla-tionandincompliancewiththerequirementsofSRENISO17025:2005standard.
Testing range• Measurement of activity in environmental sam-
ple using the MPC 2000 gross alpha/beta sys-tem.Measurementrangeforalpha:0.001-104Bq.Measurementrangeforbeta:0.5-104Bq.
• Measurementoftheactivityofradonandradio-activealphagasesinenvironmentalsamplesus-ingthePylonAB-5system.Measurementrangeforradon:0.01-1.000.000pCi/l(0.37-4*107)Bq/l.
• Measurementoftheactivityofgammaemittingradionuclides inenvironmental samplesand ra-dioactivematerialsamples.Measurementrange:background–104Bq.
• Measurement of activity in environmental sam-ples using the OCTETE alpha spectrometry sys-tem.Measurementrange:background-104Bq.
Other activities• Measurement of the volumic activity of radon
and radioactive alpha gases in environmentalsamplesusingtheCIS-Rn-XXsystem;
• Ionizing radiation detectors (pressurized ioniza-tionchamber)forindustrialapplications;
• Repairing/reconditioning radiationdetectors forindustrialapplications.
Equipment
• α,β,γcotaminometerforradioactivematerialsandenvironmetalmeasurements,withaccesso-ries,BERTHOLDUmoLB123UniversalMonitor;
• Low-backgroundgrossα-βmeasuringsystem,withaccessories,ORTECPROTEANMPC-2000-DPmodel;
• Portablesystemforthemeasurementofat-mosphericradonandthoron,withaccessories,PYLONAB-5model;
• Multidetector/analyzeralphaspectrometerwiththefollowingaccessories:-Integratedalphaspectrometrysystem;-ORTECOCTETEmultichannelalphaspectrom-eter.
• Portablemultichannel/analyzergammaspec-trometerwithGeHPdetector,withaccessories,ORTECDigiDARTmodel;
• Keithleyelectrometer;• Complexsystemformonitoringatmospheric
radonconcentration.
Potential CustomersRomanianCivilProtection/GeneralInspectorateforEmergency Situations, Ministry of Environment,CNCAN,NuclearPowerPlantinCernavoda,Nation-al Uranium Administration, Institute for BalnearyandClimaticMedicineandPhysicsandPhysicalRe-covery(IMFBRM),NationalAgencyforExportCon-trol(ANCEX),NationalInstituteforEarthPhysicsandSeismology (INCDFPS), Manufacturers/suppliers ofbuilding materials, chemical fertilizer facilities, saltandgoldmines.
Product Radiation Safety Authorization - VO 5/2006, issued by the National Commission for Nuclear Activities Control.
CNCAN Notification - No. LI 09/2008, issued by the National Commission for Nuclear Activities Control.
RENAR Certificate of accreditation - No. LI817/09, issued by the Romanian Accredi-tation Body.
Laboratory for α, β, γ Spectrometry and Radon MeasurementsLife and Environmental Physics Department
CONTACTPhone:(+4)0214046199Fax:(+4)0214574439Email:[email protected]://salmrom.nipne.ro/
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WholeBodyMonitoringLaboratory(USCIR-CCU)ispartoftheLifeandEnvironmentalSciencesDepart-ment.
USCIR-CCU’sactivityiscarriedoutaccordingtotheQuality Assurance documents that comply withthenationalandinternationalstandardsinthefield,intoforce,belongingtoCNCAN,IAEA,ICRP,ISOCEI(SRENISOIEC17025:2005).
Since2000,USCIR-CCUhasbeensuccessivelynoti-fiedanddesignatedbyCNCANasPersonalDosim-etry Body to perform intake and dose evaluationfrom occupational monitoring data (certificatesNr.01/2000,ODA01/2005,ODA01/2008).
USCIR-CCU provides periodical and special monitoring of occupational internal radioactive contamination of whole body and thyroid, for the personnel working in nuclear units from hospitals, industry, research, national security, radiopharmaceutical production centers, industrial irradiation centers, radioactive waste collection and treatment centers with potential risk of internal exposure to ionizing radiation.
USCIR-CCU also provides special monitoring of internal contamination for people from the general public, in case of nuclear accident.
The current monitoring equipment – WholeBody Counter, shielded tilted-chair geometry,is a spectrometry system equipped with high-efficiencyNaI(TI)scintillationdetectorsfordetectingincorporatedgammaemittingradionuclides,withenergyrangingbetween100keVand1500keVandactivitybetween370Bqand2.5MBq.Thedetector-associated electronics comprises NIM standardmodules and the Silescin emulation programof Multichannel Analyzer, implemented on PCthroughadedicatedSilenainterfaceboard.
Anew,state-of-the-artWholeBodyCounterwillbeavailablesoon.ThisCounter isequippedwithGe-Hyperpuredetector(ORTEC),Carbonwindowandspecial geometry for volume radioactive sources.Itwillenable thedetectionofXandgammaraysofincorporatedradionuclidesintheenergyrange10keVto2500keV,withexcellentresolutionsof600eV at the energy line 14.4 keV of Co-57 and 1.90keVattheenergyline1332keVofCo-60.TheHPGedetector-associated electronics has the followingcharacteristics:state-of-the-art,digitalfullcontrolofallthefunctionsoftheMultichannelAnalyzerwithamaximumnumberof16384acquisitionchannels,full control of detector polarization parameters,signal amplifying and shaping parameters.Moreover, thisWholeBodyCounterprovidesdatasafetyandtheirfasttransfertospectrumprocessingprogram,Renaissance-32(ORTEC).
The estimates of intake in terms of activity, ofthe radionuclide retention at different times afterintakeandoftheequivalentandeffectivedosesareperformed by IMBA (HPA) software, a specializedprogram that comprises the latest metabolic andbiokineticmodelsrecommendedbyICRPformostoftheradionuclides.
Whole Body Monitoring LaboratoryLife and Environmental Physics Department
CONTACTPhone:(+4)0214046200Fax:(+4)0214574439Email:[email protected]
27
ThelaboratoryworksinaccordancewithNotificationNo.Ll016/2007issuedbytheNationalCommissionfor Nuclear Activities Control in Romania (CNCAN),basedonSRENISO/IEC17025qualitystandard.
Activity field• Testing of radionuclide content and activity by
qualitativeandquantitativeanalysisofenviron-mentalsamples(soil,sediment,effluents,surfacewaterandvegetation)andVVR-Snuclearreactordecommissioningsamples,by low-backgroundgamma-rayspectrometry.
• Neutron activation analysis: elemental analysisusing thermalneutronactivationof samplesatTRIGA Nuclear Reactor of SCN Pitesti and thenmeasuring the samples by gamma-ray spec-trometry.
Equipment: Low-background gamma-ray spec-trometrysystem,withHPGeOrtecdetector(relativeefficiency30%and1.85keVresolutionat1332keVof60Co),placedinsidealeadshield.
Analytical performances1.Radionuclides investigated in environmental
samplesbygamma-rayspectrometry:- Artificialradionuclides:137Cs,60Co,241Am,etc.- Naturalradionuclides:238U-226Raand232Thradio-
activeseriesprogenies;235U;40K;7Be. Massofsample:~30-200g(solidsamples);
Volumeofsample:100mL-1L(liquidsamples).2.Elementsinvestigatedinenvironmentalsamples
byneutronactivationanalysis:Ag,As,Au,Ba,Br,Ca,Cd,Ce,Co,Cr,Cs,Eu,Fe,Hf,Hg,K,La,Lu,Mo,Na,Nd,Ni,Rb,Sb,Sc,Se,Sm,Sr,Tb,Th,U,W,Yb,Zn.
Massofsample:~50-150mg(environmentalsamples).
Note: Neutron activation analysis can be applied in correlation with the operating periods of TRIGA nuclear reactor at SCN Pitesti.
Minimum detectable activity (MDA) for radioactivity analysis: 0,090Bq137Csinwaterof1Lvolume(Marinelligeometry);0,072Bq137Csinwaterof150cm3volume.
Low Background Gamma-Ray Spectrometry LaboratoryNuclear Physics Department
CONTACTPhone:(+4)0214046132Fax:(+4)0214574111Email:[email protected]
28
241Am 234Th 214Pb 7Be 214Bi 137Cs 228Ac 60Co 40K0
1
2
3
4
5
6
7 Water (Marinelli, 1L ) Soil (150 cm3)
Radionuclide
MDA
[Bq/
kg]
Detection limits for neutron activation analysis: 10µg/kg–10g/kg(10ppb–1%),dependingontheelementtypeandsamplematrix.
Method descriptionGamma-ray spectrometry is a nuclear techniqueusedtoanalysegamma-rayemmitingradionuclidespresentinvarioustypesofsamples.Analyticalstages:• radionuclideidentification(qualitativeanalysis);• activity/specificactivitydeterminationofthe
identifiedradionuclides,expressedinBq,Bq/kgorBq/l(quantitativeanalysis).
Neutron activation analysisofelementalconcen-trationsinsampleisbasedonsimultaneousforma-tion, by nuclear reactions with neutrons, of a bignumberof radionuclidesoncertainelementalnu-cleipresentinthesample.
Analysis of natural radioactivity in environmental samples by low-background gamma-ray spectrometryThe laboratory’s natural background gamma-rayspectrumismainlyduetogamma-emmitingradio-nuclidesofuranium-radium(238U-226Ra)andthorium(232Th)radioactiveseries,aswellas40Kradionuclide.
Aleatorytemporalvariationoftheradon’sactivityinsidethelaboratoryrequiresanalternatelycount-ing of the investigated samples and natural back-ground, especially for low level radioactivity sam-ples.
Todetermineradium,thesamplesaresealedandmeasuredafter3-4weekstopermitestablishingtheradioactiveequilibriumbetween 226Raand itsgas-eousradioactiveprogeny222Rn(radon).Then,214Pband 214Bi radon’s radioactive progenies are meas-uredbygamma-rayspectrometry.
U,ThandKconcentrationscanbedeterminedbymeasuring uranium (238U), thorium (232Th) and po-tassium(40K)radioactivityinthesample.
Quality control is performed by:• usingcertifiedreferencematerials;• periodicalparticipationininternationalintercom-
parison exercises for reference materials certify-ing,organizedbytheInternationalAtomicEnergyAgency (IAEA) Vienna, and Institute of NuclearChemistry and Technology (INCT) Warszaw, Po-land;
• periodicalparticipationinproficiencytestsorgan-izedbyIAEAVienna.
Customers/Potential customers• Enterprisesmanufacturing:phosphatic fertilizers,
building materials, electrical energy (coal-firedpowerplants,nuclearpowerplants),metalurgicalslag;
• EnvironmentalProtectionAgencies.
100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 14000
1000
2000
3000
4000
5000
228 A
c ( 23
2 Th)
(46
3.0
keV)
234 T
h ( 23
8 U)
(63.
3 ke
V)
234 T
h ( 23
8 U)
(92.
8 ke
V)
Masa proba: 100,79 gTimp masura: 27,52 h
137 C
s (6
61.6
keV)
214 B
i ( 22
6 Ra)
(12
38.1
keV)
60 C
o (1
173.
2 ke
V)
60 C
o (1
332.
5 ke
V)
208 T
l ( 22
8 Th)
(58
3.1
keV)
214 P
b (
226 R
a) (
295.
2 ke
V)
226 R
a (1
86.0
keV)
+ 23
5 U (
185.
7 ke
V)
228 A
c ( 23
2 Th)
(96
8.9
keV)
214 B
i ( 22
6 Ra)
(76
8.4
keV)
Pb (X
) (8
5.4
keV)
Pb (X
) (7
4.2
keV)
212 P
b ( 23
2 Th)
(23
8.6
keV)
+ 21
4 Bi (
226 R
a) (
241.
9 ke
V)
Anihi
lare
β+ (
511
keV)
228 A
c ( 23
2 Th)
(91
1 ke
V)
214 B
i ( 22
6 Ra)
(11
20.3
keV)
40 K
(14
60.8
keV)
214 B
i ( 22
6 Ra)
(60
9.3
keV)
214 P
b ( 22
6 Ra)
(35
2.0
keV)
Sol A10
Num
ar im
pulsu
ri
Energie (keV)
CONTACTPhone:(+4)0214046225Fax:(+4)0214574440Email:[email protected]@nipne.ro
SpectrometricAnalysisLaboratory(LAS)ispartofRadioactiveWasteManagementDepartment(DMDR)withinIFIN-HH.
The laboratory has the ability and has been notified by CNCAN to carry out the followings:• Preparingandanalyzingtheenvironment
samples(soil,sediments,vegetation,water)bygammaspectrometry;
• Examiningsealedgammaradioactivesources;• Measuringunfixedcontamination(gamma
emittingradionuclides);• Determinationofgammaemittingradionuclides
activityfromtypeApackages(orotherpackages)filledwithradioactivewaste;
• Determinationofgammaemittingradionuclidesactivityfromhistoricalpackagesandcontainersfilledwithhistoricalwaste;
• Globalalphaandbetaactivitymeasurementsinlowbackground
• Examiningradioactivesourcesandradioactivewastescanbedoneatowners’headquartersbymeansofORTECportabledeviceandbyownmeansofconveyanceauthorizedbyCNCAN.
Thelaboratoryisoutfittedwith3gammaspectrometricequipmentswithhighresolutionHPGedetectors:• CANBERRADSA1000,outfittedwithGENIE2000
spectraacquisitionandanalysissoftware;• ISOCART–ORTECoutfittedwithGammaVISION
andISOTOPICspectraacquisitionandanalysissoftware;
• Trans–SPEC100–ORTECoutfittedGammaVISIONandISOTOPICspectraacquisitionandanalysissoftware.
Thelaboratoryisalsooutfittedwithaglobalalphaandbetaradioactivitymeasurementsystem,inlowbackground,ORTEC–Proteantype,MPC-2000-DPmodel.
Quality Management System was imple-mented to SAL according to SR. EN ISO/CEI 17025:2005 and in 2006 has been notified by the National Commission for Nuclear Activi-ties Control (CNCAN) to carry out its activity as notified laboratory in compliance with notifi-cation no. LI 01/2009.
The laboratory carries out gamma spectrometricanalysisformonitoringthecontrolledareasbothatBaita Bihor National Radwaste Repository and Ra-dioactiveWasteManagementDepartment(DMDR)withinIFIN-HH.
Thelaboratorycarriesoutresearchactivitiesbypar-ticipating in researchprojectswithinnationalandinternationalprogramsandbypresentingscientificpapersandcommunicationsinspecializedpublica-tions,conferencesandsymposiums.
Thepermanentintercomparisonsmadebetweenthe results obtained by LAS and the results ob-tainedbyotherlaboratoriesinthefield,assuresthechecking up and the maintenance of high levelqualityanalysis.
TheSpectrometricAnalysisLaboratoryparticipatesincompetencetestsorganizedatinternationallev-elbytheInternationalAtomicEnergyAgency.
Spectroscopy Analysis LaboratoryRadioactive Waste Management Department
29
Microbiological Tests
• Totalmicrobialcountin/on:a. pharmaceuticalsinanyform–tablets,
dragees,capsules,gels,powders,solutions;b. rawmaterialsandpharmaceuticalpackaging
(madeofglassorplasticmaterials);c. purifiedwater;d. productionenvironment(air,surfaces);e. alimentarysupplements;f. cosmetics:rawmaterialsandfinished
products(creams,ointments,gels);g. single-usemedicaldevices(madeofplastic,
metalortextile).• Totalnumberofyeastsandmoldsforproducts
mentionedabove(pointa)tog))• DetectionofEscherichia coli inproducts
mentionedabove(pointsa),b),e)andf));(appliedmethods:enrichmentinselectivemediaandmultitestgallerymethod);
• DetectionofPseudomonas aeruginosainproductsmentionedatpointsa),b),e)andf);(appliedmethods:enrichmentinnonselectivemediamethodandtransfersinselectivemedia,multitestgallerymethod,MIDIfattyacidsprofilingmethod);
• DetectionofStaphylococcus aureusinproductsmentionedatpointsa),b),e)andf);(appliedmethods:enrichmentinnonselectivemediamethodandpassagesinselectivemediamethod,multitestgallerymethod,MIDIfattyacidsprofilingmethod);
• DetectionofSalmonella sp.inproductsmentionedatpointsa),b),e)andf);(appliedmethods:enrichmentinnonselectivemediaandtransferinselectivemedia,multitestgallerymethod);
• Detectionandcountingofenterobacteriaandothergram-negativebacteriainproductsmentionedatpointsa),b),e)andf);
• Sterilitytestonproductsmentionedatpointsa),b),e)andf);
• DetectionofLegionella Sp.inwaterbyPolymeraseChainReactiontechnique(PCR);
• DetectionofLegionella pneumophilainwaterbyPCRtechnique.
The6thEdition(2008)oftheEuropeanPharmaco-poeiaandstandardoperatinginternalproceduresarethereferencedocumentsforthetestsaforesaid.
•License No. 2L/2007 issued by The National Medicines Agency – ANM(www.anm.ro)
•Certificate of Accreditation No. LI 675/2008
issued by The Romanian Accreditation Association – RENAR (www.renar.ro)
ThelaboratorywasbuiltinordertocomplywiththebasicprinciplesofEAL–G18normativedocumentissuedbytheEuropeanAccreditation:materialflow,personnelflow,avoidingcross-contamination,surfacesquality,airpurifyingfiltersystems,aswellaskeyparameterssupervisioninIVACsystem.
ThedesignandtheglobalorganizationarespecifictoaThirdPartyMicrobiologyLaboratory.Providingequipment(e.g.PCRandReal-TimePCR,GC-MSforMIDIidentificationtechnique),selectingandmotivatingthepersonnel(youngPh.D.students),surpassthisconditionandallowapproachingverymodernresearchfieldsaswell.
Thetotalsurfaceofthelaboratoryis150m2.Thereisaspecialroomforeverypreparatoryoperation,incubation,biologicallyactivewasteneutralization,keepingthereferencemicroorganismsaswellasa4cleanroomsassembly.
Theknow-howallowsapproachingvariousfields:-validationofirradiationsterilizationformedical
devicesfactories;-routinemicrobiologicalcontrolsformedicine
factories;-advancedresearchinmolecularbiologyfield.
The Microbiology Laboratory is part of IRASM – Radiation Processing Center. IRASM Quality Management System, which includes activities developed within the Microbiological Laboratory, is in compliance with ISO 9001, ISO 13485 and ISO 11137 and has been certified in 2002 by DQS – Germany.
CONTACTMioara ALEXANDRUPhone:(+4)0214042369Fax:(+4)0214574267Email:[email protected]@nipne.ro
Microbiology LaboratoryIRASM – Technological Irradiations Department
30
CONTACTDr. Mihalis CUTRUBINISPhone:(+4)0214046183Fax:(+4)0214575331Email:[email protected]@[email protected]@nipne.ro
Tests for identifying irradiated foodstuffs
Standard Standard Title Applicability Remarks
SR EN 1784 Foodstuffs.Detectionofirradiatedfoodcontainingfat.Gaschromatographicanalysisofhydrocarbons.
Animalorvegetalfoodstuffscontainingfat.Validatedforchicken,pork,beef,Camembertcheese,avocado,papayaandmango.
SR EN 1785 Foodstuffs.Detectionofirradiatedfoodcontainingfat.GasChromatographic/MassSpectrometricAnalysisof2-alkylcyclobutanones.
Animalorvegetalfoodstuffscontainingfat.Validatedforchicken,pork,liquidwholeegg,Camembertcheeseandsalmonmeat.
Confirmationmethod
SR EN 1786 Foodstuffs.Detectionofirradiatedfoodcontainingbone.MethodbyESRSpectroscopy.
Foodstuffscontainingbones.Validatedforbeef,chickenandtrout.
Confirmationmethod
SR EN 1787 Foodstuffs.DetectionofirradiatedfoodcontainingcellulosebyESRspectroscopy.
Foodstuffscontainingcellulose.Validatedforpistachioshells,paprikaandstrawberryseeds.
SR EN 1788 Foodstuffs.Thermoluminescencedetectionofirradiatedfoodfromwhichsilicatemineralscanbeisolated.
Foodstuffsfromwhichsilicatemineralsdustcanbeisolated.Validatedforherbs,spices,freshanddriedfruitsandvegetablesandcrustaceans.
Confirmationmethod
SR EN 13708 Foodstuffs.DetectionofirradiatedfoodcontainingcrystallinesugarbyESRspectroscopy.
Foodstuffscontainingcrystallinesugar.Validatedforraisins,driedfigs,driedmangoanddriedpapaya.
SR EN 13751 Foodstuffs.Detectionofirradiatedfoodusingphotostimulatedluminescence.
Foodstuffscontainingminerals(dust).Validatedforherbs,spices,vegetableseasoningsandcrustaceans.
Screeningmethod
SR EN 13783 Foodstuffs.DetectionofirradiatedfoodusingDirectEpifluorescentFilterTechnique/AerobicPlateCount(DEFT/APC)
Vegetableoriginfoodstuffswithhighmicrobialload.Validatedforblackpepper,whitepepper,paprika,basil,marjoram,cardamom,cinnamon,ginger,thymeandoregano.
Screeningmethod
SR EN 13784 Foodstuffs.DNACometAssayforthedetectionofirradiatedfoodstuffs
Vegetaloranimaloriginfoodstuffsfromwhichcellscanbeisolated.Validatedforchickenbonemarrow,chicken,pork,figs,almonds,lentils,rosepepper,soyabeansandsesameseeds,linseedandsunflowerseeds.
Screeningmethod
SR EN 14569 Foodstuffs.MicrobiologicalscreeningforirradiatedfoodusingLAL/GNBprocedures
Animaloriginfoodstuffs.Validatedforchicken.
Screeningmethod
Detection of Irradiated Foods LaboratoryIRASM – Technological Irradiations Department
EU and Romanian Regulations with regard to the irradiation of food
Framework Directive 1999/2/EC:- generalandtechnicalaspects;- labelingofirradiatedfood;- conditionsforauthorizingfoodirradiation.Implementing Directive 1999/3/EC: the list ofthe foodstuffs and food ingredients which maybetreatedwithionisingradiations:driedaromaticherbs,spicesandvegetableseasonings.“Normes concerning foodstuffs and food in-gredients treated with ionising radiation” ap-proved by Joint Order by MSF (885/23.11.2001),MAAP (98/4.03.2002) and CNCAN (90/14.03.2002),published in the Official Journal, Part I, No. 281/25.04.2002“Order concerning the approval of the list of foodstuffs and food ingredients and the maxi-
mum doses at which they may be treated with ionizing radiations in order to obtain the license to bring them into the market”- MSP Order No.870/10.07.2006 published in the Official Journal,Part I, No. 632/21.07.2006 (dried aromatic herbs,spicesandvegetableingredients).
The strategy proposed for the EU large positive list with regard to the irradiated food (2000)The foodstuffs proposed to be included in thepositivelistare:• frozenaromaticherbs,driedfruits,cerealflakes,
chickenorgans,eggwhiteandarabicgum,froglegsandpeeledshrimps.
Thefoodstuffswhichwerenotproposedtobein-cludedinthepositivelist:• fresh fruitsandvegetables,cereals, tubers,fish,
raw milk camembert cheese, casein, rice flour,bloodproducts,freshmeatandpoultry.
31
Physical and Chemical Testing LaboratoryIRASM – Department for Technological Irradiations
32
Chromatographic testsScreening of volatile and semivolatile organic com-pounds (VOC & SVOC) by GC/MS:• fattyacidsprofilingfrommicrobial,biologicalandor-
ganic matrixes which contain fats by using SherlockMicrobialIdentificationSystem(MIS)gaschromatogra-phicmethodproducedbyMIDI,Inc.;
• identificationofhydrocarbonsand2-alchylcyclobuta-nones(2-ACB)forthedetectionofirradiatedfoodstuffswhichcontainfats(EN1784andEN1785);
• screeningforVOCandSVOCemissionsfrommaterialsbydirectthermaldesorbtionhyphenatedwithcapilla-ryGC/MS(TD/cGC/MS);
• VOC and SVOC molecular structure characterizationand identification by spectral and retention indexmatchingwithNIST2005massspectral libraryacqui-redbyelectronionizationat70eV;
• characterization and identification of pyrolysis gasesevolved from the sample during thermogavimetricanalysis(TGA/cGC/MS);
Screening of non-volatile organic compounds by HPLC:HPLCmethodswithUV-VISdiodearray(DAD)de-tection(underdevelopment).Thermal analysis testsThermogravimetry (TGA): • determination of oxidation and thermal decomposi-
tiontemperatures(ISO11358-1);• determination of material composition (ISO 11358-1;
EUPharmacopoeiav6.1,chapter2.2.34.);• determination of volatile organic additives concen-
trationand theirmolecular structurecharacterizationandidentificationbycouplingtechniques(TGA-IRandTGA/CGC/MS);
• plasticmaterialsidentificationbasedonpyrolysispro-ductsfingerprint(couplingtechniques).
Differential Scanning Calorimetry DSC (ISO 11357-1, EU Pharmacopoeia v 6.1, chapter 2.2.34.):• determinationofmeltingandcrystallization/solidifica-
tiontemperatures(ISO11357-3);• determination of glass transition temperature (ISO
11357-2).Spectroscopic testsIdentification and quantitation of organic substanc-es and materials fingerprinting based on FT-IR and FT-Raman spectra interpretation:• FTIR-TRANS (transmission FT-IR) method of recording
spectra in transmission for solid samples embeddedinaKBrdisc(1mgofsampleto300mgofKBr)inthe7500–400cm-1spectralrange(EUPharmacopoeiav6.0,chapter2.2.24.);
• Non-destructive Variable Angle Reflectance IR (FTIR-VAR) and FT-IR diffuse reflectance (DRIFT) spectro-scopicmethodsofrecordingspectrainthe4500-650cm-1spectralrange(EUPharmacopoeiav6.0,chapter2.2.24.);
• Non-destructive Raman spectrometry methods ofrecordingspectra in the3500-50cm-1 spectral range(chapter2.2.48.,EUPharmacopoeiav6.0).
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Chromatographic equipment:GC 6890N gas chromatograph coupled with 5975 In-ert MSD mass spectrometric detector,manufacturedbyAgilentTechnologies,USA,withthefollowingspecs:• autosamplerforliquidinjection;• Sherlocksoftwareforfattyacidsprofilingandmicrobial
identification,manufacturedbyMIDIInc.,USA;• couplingfortransferringthepyrolysisgasesfromther-
mogravimetric analysis into PTV injector (TGA/CGC/MS)withcriogeniccooling(LN2);
• UNITY thermal desorber equipped with Peltier coldtrap, manufactured by Markes International; manualheadspaceaccessoryforUNITY(HS/CGC/MS)thermaldesorber;
• mass spectrometer with quadrupolar mass analyzer,electronionizationsource(El,70eV)andNIST2005MSlibrary.
High Performance Liquid Chromatograph, manu-facturedbyBeckmannCoulter,USA,with the followingspecs:• RheodyneManualInjector;• BeckmannCuaternaryPump;• Beckmann 600 channels diode array UV-VIS spectro-
meter;• JASCOfluorescencedetector.
Thermal analysis equipment:STA 409 PC Luxx Simultaneous Thermal Analyzer, manufacturedbyNETZSCH,Germany,withthefollowingspecs:• sampleispurgedwithinert,oxidizingorreducingat-
mospheres;• weighing range between 1- 18000 mg, with a mass
resolutionof0,002mginthefullweighingrange;• DSCresolution<µW(dependingonsensor);• TG/DSCsamplecarrierforsimultaneousthermogravi-
metry(TG)anddifferentialscanningcalorimetry(DSC);• TG/DTAsamplecarrierforsimultaneousthermogravi-
metry(TG)anddifferentialthermalanalysis(DTA);• online coupling with FT-IR and GC-MS for structural
characterizationofpyrolysisgases.
Spectroscopic equipmentVertex 70 class FT-IR and FT-Raman spectrometer,manufactured by Bruker Optics, Germany, with the fol-lowingspecs:• FTIR-TRANSinKBrpelletsonthe7500-400cm-1spectral
range,withanoptimumresolutionof4cm-1;• probe for non-destructive FTIR-VAR in the 4500-650
cm-1spectralrange;• Raman module (RAM II) and Raman probe for non-
destructiveanalysisofsolidandliquidsampleswitha1064nmNd:YAG-LASERexcitationsourceonthe3500–50cm-1spectralrangeandanoptimalresolutionof4cm-1;
• TGA-IRaccessoryforonlinecouplingwiththermogra-vimetry and software for 3D chromatographic FT-IRdataanalysis.
â â â â â æ
CONTACTDr. Mihalis CUTRUBINISPhone:(+4)0214046183Fax:(+4)0214575331Email:[email protected]@[email protected]@nipne.ro
CONTACTDr. Mihalis CUTRUBINISPhone:(+4)0214046183Fax:(+4)0214575331Email:[email protected],[email protected][email protected],[email protected]
Mechanical testsTensile test: spontaneous tensile stress and breakingstress;spontaneousdeformationandbreakingdeforma-tion;spontaneousforceandfailureforce;Young’sModu-lus;Poisson’sRatio;tensileyieldlimit.Steel, non-ferrous materials, plastic materials, composite materials, wood, paper, textile fabrics.Peeling Test: peeling limit; spontaneous deformationandbreakingdeformation;spontaneousforceandfailureforce.Steel, non-ferrous materials, plastic materials, composite materials, wood, paper, textile fabrics.Tear Test: spontaneous unit stress and breaking stress;tearinglimit;spontaneousdeformationandbreakingde-formation;spontaneousforceandfailureforce.Steel, non-ferrous materials, plastic materials, composite materials, wood, paper, textile fabrics.Flexure test: spontaneousunitflexurestressatconstantbending deflection and at breaking; spontaneous andconventional deflection; flexure deformation and brea-kingdeformation;elasticmodulusinflexure.Steel, non-ferrous materials, plastic materials, composite materials, wood, cardboard.Compression test: spontaneouscompressionunitstressat40%CV40andatbreakingstress;spontaneousdefor-mation and breaking deformation; spontaneous forceandfailureforce.Steel, non-ferrous materials, plastic materials, composite materials, wood, cardboard.Puncture resistance: spontaneous deformation andbreakingdeformation;spontaneousforceandfailurefor-ce.Steel, non-ferrous materials, plastic materials, composite materials, wood, cardboard, paper, textile fabrics.Impact: impact energy; spontaneous force and maxi-mumimpactresistanceforce;spontaneousdeformationandbreakingdeformation.Steel, non-ferrous materials, plastic materials, composite materials, wood.
EquipmentStatical tests• Z005universaltestingmachine(Zwick-Roell)• Transducercellof5kN,20Nmaximumforce• BTC-EXLONGS013(Zwick-Roell)Extensometer• Mechanicalclampingjaws• AdjustingdevicesforTensileTest,Compression
Test,FlexureTest,TearTest,PeelingTestandPunctureTest
• TestXpertSoftware(Zwick-RoellGermania).Shock dynamic tests • Zwick-RoellB5113ImpactTester• 50j,25jCharpyPendulum• 22j,11jIzodPendulumSample Preparation• ZCP020(Zwick-Roell)samplecuttingpress• ISO(34typeA,37type1,527-2type1A,527-2
type1B)samplecuttingdie.
Colour characteristics
Thereflectedcolouraswellasthecolourindicescanbemeasured:• WhitenessIndex:parameterusedtoevaluate
paper’squality;• YellownessIndex:parameterassociatedwiththe
degradationofplastics.
EquipmentPortablespectrocolorimeterMiniscanXEPlus• geometry:diffuse/8°• portdiameter/viewdiameter:6.0/4.0mm• spectralrange:400–700nm;
reportinginterval:10nm• photometricrange:0–150%
Physical and Chemical Testing LaboratoryIRASM – Department for Technological Irradiations
33
EPR (ESR) spectroscopy • Identificationandcharacterizationoffreeradicals
andparamagneticdefectsproducedbyirradiation;• Identificationandcharacterizationofparamagne-
ticcenterscontainingtransitionelements(Fe3+,Cu2+,Mn2+,V4+);
• Detectionofirradiatedfoodscontainingbone,crystallinecelluloseandcrystallinesugar.
EPR (ESR) spectroscopy – Equipment SpectrometerEPR(ESR)MiniScopeMS200manufac-turedbyMagnettechGmBH,Germany• Microwavefrequency:9,3–9,55GHz(Xband);• Microwavepower:100mW–50mW;• Magneticfieldrange:0–450mT;• Resonator:TE102;• Sensitivity:8x109spins/0,1mT;• Measurementtemperature:roomtemperature
and77K.
High PerformanceComputing Centre
Physics National Library
Center of NuclearSpectrometry for Energy,
Environment, Materialsand Health
RadiopharmaceuticalResearch Centre
Radiocarbon centerfor environment and biosciences
TANDIMED
Hadron Physics CentreCEXMECDIF
Ro@NUSTAR
TRITIULAB
Centre for RadiologicalSurveillance
of the Environment
ResearchInfrastructureInvestments plannedor in progress
Extreme Light Infrastructure-Nuclear Physics
ELI-NP