Nucleon separation energies in the valence correlation scheme

Jiang, Hui; Fu, G. J.; Bao, M.; He, Zhixia; Zhao, Y. M.

doi:10.1103/physrevc.86.014327

Cited by 17 publications

(17 citation statements)

References 17 publications

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“…The empirical neutron-proton interaction between the last neutron and the last proton of nuclei, denoted as δV 1n−1p , exhibits a sizable odd-even staggering between even-A and odd-A nuclei [12,23], despite the fact that the pairing interaction of like nucleons is approximately canceled out in δV 1n−1p . This suggests an extra binding energy for even-A nuclei [24][25][26], and this extra energy leads to a subtle odd-even feature for one-nucleon separation energies [25,27]. The third-order derivative of nuclear mass gives an interesting odd-even phenomenon of the GKs [16,28,29], despite the fact that the pairing interaction of like nucleons and the extra binding of even-A nuclei are both approximately canceled out.…”

Section: Introductionmentioning

confidence: 92%

Odd-even staggering in the neutron-proton interaction and nuclear mass models

Cheng

Zhao

2015

Phys. Rev. C

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In this paper we study odd-even staggering of the empirical neutron-proton interaction between the last neutron and the last proton, denoted as δV 1n−1p , and its consequence in the Garvey-Kelson mass relations (GKs) and nuclear mass models. The root-mean-squared deviations of predicted masses respectively for even-A and odd-A nuclei by using two combinatorial GKs suggest a large odd-even staggering of δV 1n−1p between even-odd and odd-even nuclei, while the odd-even difference of δV 1n−1p between even-even and odd-odd nuclei is much smaller. The contribution of the odd-even staggering of δV 1n−1p between even-A and odd-A nuclei in deviations of theoretical δV 1n−1p values of the Duflo-Zuker model and the improved Weizsäcker-Skyrme model are well represented by an isospin-dependent term. The consideration of this odd-even staggering improves our description of binding energies and one-neutron separation energies in both the Duflo-Zuker model and the improved Weizsäcker-Skyrme model.

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Section: Introductionmentioning

confidence: 92%

Odd-even staggering in the neutron-proton interaction and nuclear mass models

Cheng

Zhao

2015

Phys. Rev. C

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“…In Ref. [15] the staggerings were attributed to pairing interaction between like nucleons and symmetry energy in the modified Bethe-Weizsäcker formula; in this paper they were further explained in terms of three types of pairing interactions, i.e., proton-proton, neutron-neutron, and protonneutron pairing interactions.…”

Section: Discussionmentioning

confidence: 99%

“…Second, there are two types of odd-even staggering reported in Ref. [15]. For convenience we exemplify them by using S p and S n of nuclei in the A ∼ 130 region in Fig.…”

Section: One-nucleon Separation Energiesmentioning

confidence: 98%

“…In Ref. [15] Jiang et al showed that the relation in Eq. (1) holds not only for even-even but also for even-odd, odd-even, and odd-odd nuclei.…”

Section: Introductionmentioning

confidence: 97%

“…[13,15], in terms of pairing interaction and so-called nonpairing interactions. We suggest that the linear correlation in S p (S n ) is given by the smooth and slow change of these interactions, and that the odd-even staggering is originated from the paring interactions.…”

Section: Introductionmentioning

confidence: 99%

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Pairing interactions and one-nucleon separation energies

Bao

et al. 2012

Phys. Rev. C

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Empirical proton-neutron, proton-proton, and neutron-neutron paring and so-called nonpairing interactions are extracted by using experimental data of binding energies. Nonpairing interactions, δV (2) pp and δV (2) nn , are very sensitive to the shell and subshell evolution, the phase transition, and the Wigner effect. Odd-even staggerings of one-nucleon separation energies are discussed in terms of empirical pairing interactions.

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A nucleon-pair and boson coexistent description of nuclei

Dai¹,

Pan²,

Draayer³

2017

Chinese Phys. C

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We study a mixture of s-bosons and like-nucleon pairs with the standard pairing interaction outside an inert core. Competition between the nucleon-pairs and s-bosons is investigated in this scenario. The robustness of the BCS-BEC coexistence and crossover phenomena are examined through an analysis of pf -shell nuclei with realistic single-particle energies, in which two configurations with Pauli blocking of nucleon-pair orbits due to the formation of the s-bosons is taken into account. When the nucleon-pair orbits are considered to be independent of the s-bosons, the BCS-BEC crossover becomes smooth, with the number of the s-bosons noticeably more than that of the nucleon-pairs near the half-shell point, a feature that is demonstrated in the pf -shell for several values of the standard pairing interaction strength. As a further test of the robustness of the BCS-BEC coexistence and crossover phenomena in nuclei, results are given for B(E2; 0 + 1 → 2 + 1 ) values of even-even 102−130 Sn with 100 Sn taken as a core and valence neutron pairs confined within the 1d 5/2 , 0g 7/2 , 1d 3/2 , 2s 1/2 , 1h 11/2 orbits in the nucleon-pair orbit and the s-boson independent approximation. The results indicate that the B(E2) values are reproduced well.

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Nucleon separation energies in the valence correlation scheme

Cited by 17 publications

References 17 publications

Odd-even staggering in the neutron-proton interaction and nuclear mass models

Odd-even staggering in the neutron-proton interaction and nuclear mass models

Pairing interactions and one-nucleon separation energies

A nucleon-pair and boson coexistent description of nuclei

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