Search results for "Ground State"

showing 10 items of 928 documents

Evidence for Increased neutron and proton excitations between 51−63 Mn

2015

The hyperfine structures of the odd-even 51−63Mnatoms (N=26 −38) were measured using bunched beam collinear laser spectroscopy at ISOLDE, CERN. The extracted spins and magnetic dipole moments have been compared to large-scale shell-model calculations using different model spaces and effective interactions. In the case of 61,63Mn, the results show the increasing importance of neutron excitations across the N=40subshell closure, and of proton excitations across the Z=28shell gap. These measurements provide the first direct proof that proton and neutron excitations across shell gaps are playing an important role in the ground state wave functions of the neutron-rich Mn isotopes. publisher: Els…

Nuclear and High Energy PhysicsProtonNuclear TheoryMagnetic dipole momentsMagnetic dipole momentNuclear Physics - ExperimentNeutronPhysics::Atomic PhysicsNuclear ExperimentWave functionHyperfine structurePhysicsManganeseta114SpinsMagnetic momentMagnetic dipole moment; Manganese; Spin determination; Nuclear and High Energy Physicsmangaanilcsh:QC1-999Spin determinationPhysics::Accelerator PhysicsPräzisionsexperimente - Abteilung BlaumAtomic physicsGround stateMagnetic dipolelcsh:PhysicsPhysics Letters B

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Evaluation of the magnetic moments of radium isotopes

1990

Using the relativistic linked cluster many-body perturbation procedure we have obtained the hyperfine field at the nucleus of the Ra+ ion in the2S1/2 ground state. There is good agreement between the calculated magnetic moment of213Ra and the results of a recent Zeeman measurement by the collinear laser beam technique. Detailed comparison is carried out between our result and earlier ones.

Nuclear and High Energy PhysicsZeeman effectNeutron magnetic momentIsotopeMagnetic momentChemistryCondensed Matter PhysicsElectron magnetic dipole momentAtomic and Molecular Physics and OpticsIonNuclear physicssymbols.namesakesymbolsPhysics::Atomic PhysicsPhysical and Theoretical ChemistryAtomic physicsGround stateHyperfine structureHyperfine Interactions

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Collectivity in the light radon nuclei measured directly via Coulomb excitation

2015

Background: Shape coexistence in heavy nuclei poses a strong challenge to state-of-the-art nuclear models, where several competing shape minima are found close to the ground state. A classic region for investigating this phenomenon is in the region around Z=82 and the neutron midshell at N=104. Purpose: Evidence for shape coexistence has been inferred from α-decay measurements, laser spectroscopy, and in-beam measurements. While the latter allow the pattern of excited states and rotational band structures to be mapped out, a detailed understanding of shape coexistence can only come from measurements of electromagnetic matrix elements. Method: Secondary, radioactive ion beams of Rn202 and Rn…

Nuclear and High Energy Physics[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]PopulationFOS: Physical sciencesCoulomb excitationshape coexistence01 natural sciences0103 physical sciencesNuclear Physics - ExperimentNeutroncollectivityNuclear Experiment (nucl-ex)010306 general physicseducationSpectroscopyNuclear ExperimentPhysicseducation.field_of_studyta114010308 nuclear & particles physicsGamma rayradonPhysique atomique et nucléaire3. Good healthRadonExcited stateQuadrupoleAtomic physicsGround state

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First Offline Results from the S3 Low-Energy Branch

2022

International audience; We present the first results obtained from the S3 Low-Energy Branch , the gas cell setup at SPIRAL2-GANIL, which will be installed behind the S3 spectrometer for atomic and nuclear spectroscopy studies of exotic nuclei. The installation is currently being commissioned offline, with the aim to establish optimum conditions for the operation of the radio frequency quadrupole ion guides, mass separation and ion bunching, providing high-efficiency and low-energy spatial spread for the isotopes of interest. Transmission and mass-resolving power measurements are presented for the different components of the S3-LEB setup. In addition, a single-longitudinal-mode, injection-lo…

Nuclear and High Energy Physicsresonance ionization laser spectroscopy; gas cell; hypersonic gas jets; radio frequency quadrupoles; nuclear ground state properties; isotope shift; hyperfine structurehyperfine structurespektroskopiatutkimuslaitteet[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Physics Atomic Molecular & Chemicalatomifysiikka[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]radio frequency quadrupolesScience & TechnologySPECTROSCOPY[PHYS.PHYS.PHYS-ATOM-PH]Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]Physicsgas cellLASER ION-SOURCECondensed Matter PhysicslasertekniikkaAtomic and Molecular Physics and Opticsresonance ionization laser spectroscopyisotope shiftnuclear ground state propertiesPhysical Scienceshypersonic gas jetsIONIZATIONydinfysiikkaSYSTEMAtoms

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Determination of the isotope shift of115m Cd by a Zeeman scanning method

1975

We have used an optical pumping-Zeeman scanning technique in order to determine the isotope shift in the 3,261 A resonance line of 43-day, spin-11/2115mCd. A sample of ≈5×1012 atoms was aligned in the1S0 diamagnetic ground state by optically pumping the sample with one selected Zeeman-scanned component of the3P1−3,261 A resonance line from a114Cd lamp. The alignment was detected through the modulation of the pumping beam at the nuclear resonance frequency. Thus by Zeeman scanning theF = 9/2 component of the3P1 level and using previously determinedA- andB-values, we findδ5v(114–115m (9/2))= −4,234(48) MHz and114Cd-115mCd isotope shift = 87(48) MHz. We calculate a staggering parameterγ(115mCd…

Nuclear and High Energy Physicssymbols.namesakeZeeman effectMaterials scienceIsotopeModulationsymbolsNuclear fusionDiamagnetismAtomic physicsGround stateBeam (structure)Effective nuclear chargeZeitschrift f�r Physik A: Atoms and Nuclei

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Decay of the key 92-keV resonance in the 25Mg(p,γ) reaction to the ground and isomeric states of the cosmic γ-ray emitter 26Al

2021

Abstract The 92-keV resonance in the 25Mg ( p , γ ) 26 Al reaction plays a key role in the production of 26Al at astrophysical burning temperatures of ≈100 MK in the Mg-Al cycle. However, the state can decay to feed either the ground, 26 g Al, or isomeric state, 26 m Al. It is the ground state that is critical as the source of cosmic γ rays. It is therefore important to precisely determine the ground-state branching fraction f 0 of this resonance. Here we report on the identification of four γ-ray transitions from the 92-keV resonance, and determine the spin of the state and its ground-state branching fraction f 0 = 0.52 ( 2 ) s t a t ( 6 ) s y s t . The f 0 value is the most precise report…

Nuclear and High Energy Physicsγ spectroscopyastrofysiikkaAstrophysics::High Energy Astrophysical Phenomenanuclear astrophysics01 natural sciences7. Clean energy0103 physical sciencesNuclear astrophysics010306 general physicsSpin (physics)PhysicsRange (particle radiation)COSMIC cancer database010308 nuclear & particles physicsBranching fractionResonanceState (functional analysis)lcsh:QC1-99926Alcosmic γ raysNuclear astrophysicsCosmic γ raysAtomic physicsydinfysiikkaGround statekosminen säteilylcsh:Physics

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Precise ground state properties of the heaviest elements for studies of their atomic and nuclear structure

2019

Abstract The precise determination of atomic and nuclear properties such as masses, differential charge radii, nuclear spins and electromagnetic moments of exotic nuclides has recently been extended to the region of the heaviest elements. To this end, ion trap-based techniques and laser spectroscopy methods have been employed to provide information complementary to that obtained by nuclear spectroscopy. This enables more detailed studies of the atomic and nuclear structure of these exotic nuclides far from stability. This contribution summarizes some of the recent achievements and addresses future perspectives for measurements on even heavier elements.

Nuclear physics010308 nuclear & particles physicsChemistryNuclear Theory0103 physical sciencesNuclear structurePhysical and Theoretical ChemistryNuclear Experiment010306 general physicsGround state01 natural sciencesRadiochimica Acta

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Conversion coefficients of the isomeric state in 72Br

2010

In order to determine the Gamow‐Teller strength distribution for the N = Z nucleus 72Kr an experiment was performed with a Total Absorption Gamma Spectrometer. To fully accomplish this task it is crucial to determine the multipolarity of the low energy transitions as the spin‐parity of the daughter ground state has been debated. This is done by experimental determination of the conversion coefficients. Preliminary results for the multipolarity and conversion coefficients of the transition connecting the isomeric state at 101 keV with the 72Br ground state are presented.

Nuclear physicsAngular momentumChemistryIsotopes of bromineNuclear structureGamma spectroscopyAtomic physicsSpin (physics)Ground stateSpectroscopyNuclear ExperimentRadioactive decay

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Evidence for violation of the Gallagher-Moszkowski rules in154Pm

1972

The existence of two radioactive species of154Pm (1.8 min ground state and 2.65 min isomer) is established. The Nilsson model configurations assigned to these states give evidence against the validity of the Gallagher-Moszkowski coupling rules in154Pm.

Nuclear physicsCouplingPhysicsNuclear and High Energy PhysicsDecay schemeIsotopes of germaniumNuclear fusionGround stateZeitschrift für Physik A Hadrons and nuclei

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Study of excited states of [sup 31]S through beta-decay of [sup 31]Cl for nucleosynthesis in ONe novae

2011

We have produced an intense and pure beam of 31Cl with the MARS Separator at the Texas A&M University and studied β‐decay of 31Cl by implanting the beam into a novel detector setup, capable of measuring β‐delayed protons and γ‐rays simultaneously. From our data, we have established decay scheme of 31Cl, found resonance energies with 1 keV precision, have measured its half‐life with under 1% accuracy, found its Isobar Analog State decay and by using the IMME obtained an improved mass excess for its ground state. In this contribution, a description of the used method along with selected preliminary experimental results are given and their relevance for novae nucleosynthesis discussed.

Nuclear physicsPhysicsDecay schemeMass excessta114NucleosynthesisExcited stateIsobarResonanceAtomic physicsGround stateBeta decayAIP Conference Proceedings

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