Search results for "SEPARATION"

showing 10 items of 865 documents

Isomer separation of Cu and Cu with a resonance ionization laser ion source

2000

Abstract Radioactive copper isotopes were ionized with the resonance ionization laser ion source (RILIS) at the on-line isotope separator ISOLDE (CERN). Using the different hyperfine structure in the 3d10 4s 2 S1/2 – 3d10 4p 2 P01/2 transition the low- and high-spin isomers of 70 Cu were selectively enhanced by tuning the laser wavelength. The light was provided by a narrow-bandwidth dye laser pumped by copper vapor lasers (CVL) and frequency doubled in a BBO crystal. The ground state to isomeric state intensity ratio could be varied by a factor of 30, allowing to assign gamma transitions unambiguously to the decay of the individual isomers. It is shown that the method can also be used to…

Nuclear and High Energy PhysicsDye laserIsotopes of copperChemistryAnalytical chemistryPhysics::OpticsLaserIon sourcelaw.inventionlawIonizationPhysics::Atomic PhysicsAtomic physicsGround stateAtomic vapor laser isotope separationInstrumentationHyperfine structure

researchProduct

MELISSA: Laser ion source setup at CERN-MEDICIS facility. Blueprint

2019

The Resonance Ionization Laser Ion Source (RILIS) has become an essential feature of many radioactive ion beam facilities worldwide since it offers an unmatched combination of efficiency and selectivity in the production of ion beams of many different chemical elements. In 2019, the laser ion source setup MELISSA is going to be established at the CERN-MEDICIS facility, based on the experience of the workgroup LARISSA of the University Mainz and CERN ISOLDE RILIS team. The purpose is to enhance the capability of the radioactive ion beam supply for end users by optimizing the yield and the purity of the final product. In this article, the blueprint of the laser ion source, as well as the key …

Nuclear and High Energy PhysicsEngineeringTechnologyCERN-MEDICISIon beamRESONANCE IONIZATION SPECTROSCOPYNuclear engineeringPhysics Atomic Molecular & ChemicalNUCLEAR MEDICINE01 natural sciencesISOLDElaw.inventionIonRADIOACTIVITYlawION BEAMSLASER RESONANCE IONIZATION0103 physical sciences[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]010306 general physicsNuclear Science & TechnologyInstrumentationInstruments & InstrumentationSAPPHIRE [TI]ComputingMilieux_MISCELLANEOUSLarge Hadron ColliderScience & TechnologyMELISSA010308 nuclear & particles physicsbusiness.industryPhysicsION SOURCESLaserLANTHANIDESIon sourcePhysics NuclearResonance ionizationPhysical SciencesISOTOPE SEPARATIONIONIZATIONRADIOACTIVE ELEMENTSbusinessRARE EARTH ELEMENTSSAPPHIRE

researchProduct

Beta-decay of148,150,152Pr into levels of148,150,152Nd

1988

Theβ−-decay of148,150,152Pr into levels of148,150,152Nd has been studied byγ-singles,γγ-coincidence and for148Pr also byγγ-angular correlation measurements. The praseodymium activities have been obtained by thermal neutron-induced fission of235U followed by on-line mass separation with the helium-jet coupled mass separator HELIOS. Decay schemes for these heaviest praseodymium nuclides are proposed. From the angular correlation measurements spin values for the seven lowest levels of148Nd are deduced. Spin and parity assignments for the lower levels in150,152Nd have been extrapolated from level systematics.

Nuclear and High Energy PhysicsFissionChemistryPraseodymiumThermalchemistry.chemical_elementNuclear fusionParity (physics)NuclideAtomic physicsMass separationBeta decayZeitschrift f�r Physik A Atomic Nuclei

researchProduct

Very high specific activity erbium 169Er production for potential receptor-targeted radiotherapy

2019

Erbium 169Er is one of the most interesting radiolanthanides for new potential receptor-targeted β− therapy applications due to its low energy β− emissions, very low intensity ɣ rays and the possibility to use 68Ga or 44Sc as companion for diagnostic in a theranostics approach. Currently it can be produced in reactors through the neutron activation of highly enriched 168Er. The low specific activity of the produced carrier-added 169Er is limiting its use for receptor-targeted therapy. Nonetheless it is used for radiosynoviorthesis of small joints. The aim of this work is to develop a new large-scale production method for the supply of very high specific activity 169Er. Highly enriched 168Er…

Nuclear and High Energy PhysicsHIGH SPECIFIC ACTIVITIESMaterials scienceTargeted Radiotherapychemistry.chemical_elementLASER IONIZATION7. Clean energy030218 nuclear medicine & medical imaginglaw.inventionErbium03 medical and health sciences0302 clinical medicinePRECLINICAL STUDIESlaw[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Production (economics)HIGH SPECIFIC ACTIVITYIrradiationInstrumentationComputingMilieux_MISCELLANEOUSATOM LASERSRadiochemistrySELECTIVE IONIZATIONNuclear reactorERBIUMRESONANT LASER IONIZATIONLARGE SCALE PRODUCTIONSchemistryHigh specific activityER-169030220 oncology & carcinogenesisSEPARATION EFFICIENCYTARGETED RADIOTHERAPYIONIZATIONSpecific activityRECEPTOR-TARGETED THERAPYNeutron activationNUCLEAR REACTORSNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms

researchProduct

First collinear laser spectroscopy measurements of radioisotopes from an IGISOL ion source

1997

Abstract The standard Doppler-free technique of collinear laser spectroscopy has been successfully applied to radioisotopes from the ion-guide isotope separator (IGISOL) at the University of Jyvaskyla. The laser resonance fluorescence signals for the 140,142,144 Ba radioisotopes show that the ion beam energy spread is less than 6 eV, allowing the laser technique to have both high resolution and a sensitivity comparable with the best obtained at conventional facilities.

Nuclear and High Energy PhysicsIon beamIsotopeChemistryHigh resolutionLaserGUIDEFluorescenceIon sourcelaw.inventionlawSEPARATIONLaser resonanceAtomic physicsSpectroscopyInstrumentation

researchProduct

The REX-ISOLDE project

1998

Abstract REX-ISOLDE [1] is an experiment at ISOLDE/CERN with a twofold aim: (i) to demonstrate a novel efficient scheme for the acceleration of radioactive ions from the online mass separator ISOLDE to energies around the Coulomb barrier. (ii) to perform first nuclear physics experiments by studying the structure of the neutron-rich (N = 20, N = 28) nuclei by Coulomb excitation and neutron transfer reactions. An overview on the different components of the radioactive beam accelerator is given with special emphasis on the separation possibilities and ion number capabilities of the system.

Nuclear and High Energy PhysicsLarge Hadron ColliderChemistryCoulomb barrierCoulomb excitationPenning trapLinear particle acceleratorIsotope separationlaw.inventionIonNuclear physicslawPhysics::Accelerator PhysicsNeutronNuclear ExperimentInstrumentationNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms

researchProduct

Atom beam emersion from hot cavity laser ion sources

2020

Abstract Ion sources exploiting laser resonance ionization offer efficient and element-selective radioactive ion beam production at the leading isotope separation on-line facilities worldwide. Most commonly, laser resonance ionization takes place inside a resistively heated atomizer tube directly coupled to the production target, where the element of interest is evaporated and provided as atomic vapor. While naturally the majority of atoms is ionized inside this hot cavity, a fraction of the neutrals effuses towards the high voltage beam extraction system of the subsequent mass separator. We report on several systematic investigations on this phenomenon regarding its significance and implic…

Nuclear and High Energy PhysicsMaterials scienceIon beam010308 nuclear & particles physicsSeparator (oil production)Laser01 natural scienceslaw.inventionIonIsotope separationlawIonization0103 physical sciencesAtomPhysics::Atomic and Molecular ClustersPhysics::Accelerator PhysicsPhysics::Atomic PhysicsAtomic physics010306 general physicsInstrumentationBeam (structure)Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms

researchProduct

The FRS Ion Catcher

2013

At the FRS Ion Catcher at GSI, projectile and fission fragments are produced at relativistic energies, separated in-flight, range-focused, slowed down and thermalized in a cryogenic stopping cell. A multiple-reflection time-of-flight mass spectrometer (MR-TOF-MS) is used to perform direct mass measurements and to provide an isobarically clean beam for further experiments, such as mass-selected decay spectroscopy. A versatile RF quadrupole transport and diagnostics unit guides the ions from the stopping cell to the MR-TOF-MS, provides differential pumping, ion identification and includes reference ion sources. The FRS Ion Catcher serves as a test facility for the Low-Energy Branch of the Sup…

Nuclear and High Energy PhysicsPhysics::Instrumentation and DetectorsFissionMass spectrometry01 natural sciencesIonHEAVY-IONSNuclear physicsENERGYGSI0103 physical sciencesddc:530NuclideNuclear Experiment010306 general physicsInstrumentationSUPER-FRSDirect mass measurementta114010308 nuclear & particles physicsChemistryProjectileMultiple-reflection time-of-flight mass spectrometerExtraction timeTIMECryogenic gas-filled stopping cellQuadrupoleISOBAR-SEPARATIONFacility for Antiproton and Ion ResearchAtomic physicsProjectile fragmentationBeam (structure)Exotic nucleiSYSTEMNuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms

researchProduct

Der Zerfall des94Sr

1973

The nuclide94Sr was isolated by chemical separation methods after thermal neutron induced fission of235U. Its decay properties were investigated employing semi-conductor spectrometers and coincidence techniques. A half-life of 74.1±0.3 sec was found. Besides the 1428.3 keV γ-ray we found 4 new γ-rays which could be placed in a decay scheme comprising three excited states of94Y. The 1+ states in theuu-nuclides90,92,94Y and88,90,92Rb are compared.

Nuclear physicsChemical separationPhysicsNuclear and High Energy PhysicsDecay schemeSpectrometerFissionExcited stateNuclear fusionAtomic physicsNeutron temperatureCoincidenceZeitschrift für Physik A Hadrons and nuclei

researchProduct

The on-line isotope separation facility helios at the mainz reactor

1980

Abstract The on-line isotope separation facility HELIOS consisting of a helium-jet transport system coupled to a high transmission mass separator is described. The main characteristics of the system were determined from γ-ray measurements on neutron-rich nuclides. The transmission from the target to the skimmer is about 60%; the overall efficiency for typical fission product elements is 0.05–0.2% and the transit time for Cs is about 1.0 s.

Nuclear physicsNuclear fission productMaterials sciencelawSeparator (oil production)Transit timeGeneral MedicineNuclideHeliOSTransport systemIsotope separationlaw.inventionOverall efficiencyNuclear Instruments and Methods

researchProduct