Search results for "21.10.Ky"

showing 3 items of 3 documents

Coulomb excitation of $^{78}$Kr

2006

Expérience à JYFL cyclotron (Jyväskylä, Finlande); The Kr isotopes are considered to be among the best cases for shape coexistence studies in the mass A$\sim$70 region. Our campaign to investigate in detail the development of the shape coexistence in the neutron deficient Kr isotopes was started with the stable nucleus $^{78}$Kr. To obtain the information about the intrinsic shape, Coulomb excitation experiments were performed. A total of 26 matrix elements were determined for $^{78)$Kr. Simple geometrical and algebraic models do not reproduce all details of the electromagnetic structure. A good interpretation of the complex structure of the nucleus with competing oblate and prolate shapes …

PhysicsNuclear and High Energy PhysicsIsotope010308 nuclear & particles physicsNuclear TheoryCoulomb excitation[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciencesSymmetry (physics)Projection (linear algebra)Matrix (mathematics)Excited state0103 physical sciencesNeutronAlgebraic numberAtomic physics010306 general physics21.10.Ky; 21.60.Jz; 23.20.Js; 25.70.De; 27.50.+e
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Analysis methods of safe Coulomb-excitation experiments with radioactive ion beams using the gosia code

2016

With the recent advances in radioactive ion beam technology, Coulomb excitation at safe energies becomes an important experimental tool in nuclear-structure physics. The usefulness of the technique to extract key information on the electromagnetic properties of nuclei has been demonstrated since the 1960's with stable beam and target combinations. New challenges present themselves when studying exotic nuclei with this technique, including dealing with low statistics or number of data points, absolute and relative normalisation of the measured cross sections and a lack of complimentary experimental data, such as excited-state lifetimes and branching ratios. This paper addresses some of these…

Radioactive ion beamsNuclear and High Energy PhysicsIon beamfuusioreaktioCoulomb excitationData analysisFOS: Physical sciencesCoulomb excitation[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciencesNuclear physicsElectromagnetic moments25.70.De 21.10.Ky; 29.38.Gj 29.85.Fj0103 physical sciencesNuclear Experiment (nucl-ex)particle and nuclear physics010306 general physicsheavy ionsNuclear ExperimentAnalysis methodPhysics010308 nuclear & particles physicsReaccelerated radioactive beams3. Good healthData pointhadronsQuadrupoleydinfysiikka
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Nuclear charge radii and electromagnetic moments of radioactive scandium isotopes and isomers

2011

International audience; Collinear laser spectroscopy experiments with the Sc + transition 3d4s 3 D 2 → 3d4p 3 F 3 at λ = 363.1 nm were performed on the 42−46 Sc isotopic chain using an ion guide isotope separator with a cooler-buncher. Nuclear magnetic dipole and electric quadrupole moments as well as isotope shifts were determined from the hyperfine structure for five ground states and two isomers. Extensive multi-configurational Dirac-Fock calculations were performed in order to evaluate the specific mass-shift, M SMS, and field-shift, F, parameters which allowed evaluation of the charge radii trend of the Sc isotopic sequence. The charge radii obtained show systematics more like the Ti r…

PhysicsNuclear and High Energy Physicscollinear laser spectroscopy010308 nuclear & particles physicschemistry.chemical_element01 natural sciences7. Clean energyEffective nuclear chargeIon21.10.Kychemistrynuclear moments PACS numbers: 21.10.Ft0103 physical sciencesQuadrupolemean-square charge radiusNeutronPhysics::Atomic PhysicsScandium42.62.FiAtomic physics010306 general physicsSpectroscopy32.10.FnMagnetic dipoleHyperfine structureJournal of Physics G: Nuclear and Particle Physics
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