Competition between pairing correlations and deformation from the odd-even mass staggering of francium and radium isotopes

Kreim, S.; Beck, D.; Blaum, Klaus; Borgmann, Christopher; Breitenfeldt, M.; Cocolios, T. E.; Gottberg, A.; Herfurth, F.; Kowalska, Magdalena; Litvinov, Yu. A.; Lunney, D.; Manea, V.; Mendonça, Tânia; Naimi, S.; Neidherr, D.; Rosenbusch, M.; Schweikhard, L.; Stora, T.; Wienholtz, F.; Wolf, R.; Zuber, Κ.

doi:10.1103/physrevc.90.024301

Cited by 14 publications

(6 citation statements)

References 58 publications

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“…In contrast to the francium odd-even staggering whose D(N ; δ r 2 ) parameter displays a sudden increase at N = 139,140, the radium isotopes display no such strong increase, instead continuing a smooth upward trend with increasing neutron number. This increased oddeven staggering agrees with the behavior seen in the binding energies of these isotopes [31]. Here, the enhanced odd-even staggering towards N = 146 was reproduced by both Hartree-Fock and Hartree-Fock-Bogoliubov calculations by increasing quadrupole deformation.…”

Section: Odd-even Staggeringsupporting

confidence: 85%

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Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

Lynch¹,

Wilkins²,

Billowes³

et al. 2018

Phys. Rev. C

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The neutron-rich radium isotopes, 222−233 Ra, were measured with Collinear Resonance Ionization Spectroscopy (CRIS) at the ISOLDE facility, CERN. The hyperfine structure of the 7s 2 1 S 0 → 7s7p 3 P 1 transition was probed, allowing measurement of the magnetic moments, quadrupole moments, and changes in mean-square charge radii. These results are compared to existing literature values, and the new moments and change in mean-square charge radii of 231 Ra are presented. Low-resolution laser spectroscopy of the very neutron-rich 233 Ra has allowed the isotope shift and relative charge radius to be determined for the first time.

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Section: Odd-even Staggeringsupporting

confidence: 85%

“…The increasing magnitude of the intrinsic quadrupole moments adds further experimental support to the calculations presented in Ref. [31].…”

Section: E Electromagnetic Momentssupporting

confidence: 81%

Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

Lynch¹,

Wilkins²,

Billowes³

et al. 2018

Phys. Rev. C

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“…The francium ions cover a wide range of masses, from A ¼ 200 [44] to 233 [45]. Their yields vary from < 1 to > 10 8 atoms per second, depending on the reaction cross section, the diffusion and effusion properties of the target, and the half-life of each isotope [46].…”

Section: A Suppression Of Surface-ionized Ionsmentioning

confidence: 99%

In-Source Laser Spectroscopy with the Laser Ion Source and Trap: First Direct Study of the Ground-State Properties ofPo217,219

Fink¹,

Cocolios²,

Andreyev³

et al. 2015

Phys. Rev. X

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A Laser Ion Source and Trap (LIST) for a thick-target, isotope-separation on-line facility has been implemented at CERN ISOLDE for the production of pure, laser-ionized, radioactive ion beams. It offers two modes of operation, either as an ion guide, which performs similarly to the standard ISOLDE resonance ionization laser ion source (RILIS), or as a more selective ion source, where surface-ionized ions from the hot ion-source cavity are repelled by an electrode, while laser ionization is done within a radiofrequency quadrupole ion guide. The first physics application of the LIST enables the suppression of francium contamination in ion beams of neutron-rich polonium isotopes at ISOLDE by more than 1000 with a reduction in laser-ionization efficiency of only 20. Resonance ionization spectroscopy is performed directly inside the LIST device, allowing the study of the hyperfine structure and isotope shift of 217 Po for the first time. Nuclear decay spectroscopy of 219 Po is performed for the first time, revealing its half-life, α-to-β-decay branching ratio, and α-particle energy. This experiment demonstrates the applicability of the LIST at radioactive ion-beam facilities for the production and study of pure beams of exotic isotopes.

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“…When separation energies are low, this effect becomes prominent, as ∆ p represents a significant fraction of S n (∼ 40% for the even-Z daughter nuclides considered here). The above gap is quantitatively valid for spherical nuclei, but may be distorted in exotic nuclei by correlations such as deformation, see for example [59]. Nevertheless, that even-Z nuclei have a lower level density for proton-driven states than odd-Z nuclei remains true [60].…”

mentioning

confidence: 94%

“…Nevertheless, that even-Z nuclei have a lower level density for proton-driven states than odd-Z nuclei remains true [60]. As a quantitative illustration of a specific case, we consider here the strength distribution in the neighboring 59 Co and 58 Fe stable nuclei after one proton transfer (d, 3 He) as published in [61,62]. The ratio of their respective integrated spectroscopic strengths up to 1 MeV is 0.3, with more strength at low energy for 59 Co than for 58 Fe.…”

mentioning

confidence: 99%

Prominence of Pairing in Inclusive (p,2p) and (p,pn
Paul¹,
Obertelli²,
Bertulani³
et al. 2019
Phys. Rev. Lett.
7
0
3
0
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Fifty-five inclusive single nucleon removal cross sections from medium mass neutron-rich nuclei impinging on a hydrogen target at ∼ 250 MeV/nucleon were measured at the RIKEN Radioactive Isotope Beam Factory. Systematically higher cross sections are found for proton removal from nuclei with an even number of protons compared to odd-proton number projectiles for a given neutron separation energy. Neutron removal cross sections display no even-odd splitting contrary to nuclear cascade model predictions. Both effects are understood through simple considerations of neutron separation energies and bound state level densities originating in pairing correlations in the daughter nuclei. These conclusions are supported by comparison with semi-microscopic model predictions, highlighting the enhanced role of low-lying level densities in nucleon removal cross sections from loosely-bound nuclei. Pairing correlations, which lower the energy of an atomic nucleus by coupling nucleons into spin-zero pairs, play a prominent role in nuclear structure [1, 2]. They are responsible, for example, for the odd-even mass and nucleon separation energy staggering along isotopic chains and the reduced level density in the low-energy spectra

show abstract

Competition between pairing correlations and deformation from the odd-even mass staggering of francium and radium isotopes

Cited by 14 publications

References 58 publications

Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

In-Source Laser Spectroscopy with the Laser Ion Source and Trap: First Direct Study of the Ground-State Properties ofPo217,219

Prominence of Pairing in Inclusive (p,2p) and (p,pn
Paul¹,
Obertelli²,
Bertulani³
et al. 2019
Phys. Rev. Lett.
7
0
3
0
View full text Add to dashboard Cite

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Competition between pairing correlations and deformation from the odd-even mass staggering of francium and radium isotopes

Cited by 14 publications

References 58 publications

Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

Laser-spectroscopy studies of the nuclear structure of neutron-rich radium

In-Source Laser Spectroscopy with the Laser Ion Source and Trap: First Direct Study of the Ground-State Properties ofPo217,219

Prominence of Pairing in Inclusive (p,2p) and (p,pnPaul1, Obertelli2, Bertulani3 et al. 2019Phys. Rev. Lett.7030View full textAdd to dashboardCite

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Prominence of Pairing in Inclusive (p,2p) and (p,pn
Paul¹,
Obertelli²,
Bertulani³
et al. 2019
Phys. Rev. Lett.
7
0
3
0
View full text Add to dashboard Cite