Giant monopole resonance in even-A Cd isotopes, the asymmetry term in nuclear incompressibility, and the “softness” of Sn and Cd nuclei

Patel, D.; Garg, U.; Fujiwara, M̄.; Akimune, H.; Berg, G.P.A.; Harakeh, Mohsen; Itoh, Masatoshi; Kawabata, T.; Kawase, K.; Nayak, B. K.; Ohta, Takao; Ouchi, Hiroki; Piekarewicz, J.; Uchida, M.; Yoshida, H. P.; Yosoi, M.

doi:10.1016/j.physletb.2012.10.056

Cited by 70 publications

(89 citation statements)

References 48 publications

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“…For all nuclei analyzed in the present study we have verified the stability of the results with the variation of the size of the mesh. Pairing correlations are taken into account by a contact volume-pairing interaction, with strength V 0 = −218 (−265) MeV fm 3 for Sn (Pb) isotopes. The pairing strength is adjusted to reproduce the empirical pairing gaps extracted from data on odd-even mass differences (five-point formula).…”

Section: Quasiparticle Random Phase Approximationmentioning

confidence: 99%

“…Recent advances in experimental and theoretical investigations of nuclear incompressibility have also enabled studies of the evolution of incompressibility in isotopic chains [1][2][3][4][5][6]. As for many other structure phenomena, for instance the evolution of magic numbers [7], a study of the isotopic dependence might provide a more general and deeper understanding of nuclear incompressibility.…”

Section: Introductionmentioning

confidence: 99%

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Incompressibility of finite fermionic systems: Stable and exotic atomic nuclei

et al. 2013

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The incompressibility of finite fermionic systems is investigated using analytical approaches and microscopic models. The incompressibility of a system is directly linked to the zero-point kinetic energy of constituent fermions, and this is a universal feature of fermionic systems. In the case of atomic nuclei, this implies a constant value of the incompressibility in medium-heavy and heavy nuclei. The evolution of nuclear incompressibility along Sn and Pb isotopic chains is analyzed using global microscopic models, based on both nonrelativistic and relativistic energy functionals. The result is an almost constant incompressibility in stable nuclei and systems not far from stability and a steep decrease in nuclei with pronounced neutron excess, caused by the emergence of a soft monopole mode in neutron-rich nuclei.

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Section: Quasiparticle Random Phase Approximationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Incompressibility of finite fermionic systems: Stable and exotic atomic nuclei

et al. 2013

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“…In this space, the pairing strength V 0 is fixed by fitting the pairing gap extracted from experimental data of odd-even mass difference by using the five-point formula. The values of V 0 that we have obtained are displayed in Table I [106][107][108][109][110][111][112][113][114][115][116] Cd are compared with the experimental data obtained at RCNP [7]. The SLy5 (solid line), SkM * (dashed line), and SkP (dotted line) forces are adopted in the calculations whose results are shown here, together with the mixed pairing interaction.…”

Section: Theoretical Modelsmentioning

confidence: 99%

“…Cd isotopes are compared with the experimental data obtained from Ref. [7]. The forces (a) SLy5, (b) SkM * , and (c) SkP are adopted in the present calculations together with either the filling approximation, the volume, the surface, or the mixed pairing interactions, respectively.…”

Section: Theoretical Modelsmentioning

confidence: 99%

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Microscopic study of the isoscalar giant monopole resonance in Cd, Sn, and Pb isotopes

2012

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The isoscalar giant monopole resonance (ISGMR) in Cd, Sn, and Pb isotopes has been studied within the self-consistent Skyrme Hartree-Fock + BCS and quasiparticle random phase approximation (QRPA). Three Skyrme parameter sets are used in the calculations (i.e., SLy5, SkM * , and SkP) since they are characterized by different values of the compression modulus in symmetric nuclear matter; namely, K ∞ = 230, 217, and 202 MeV, respectively. We also investigate the effect of different types of pairing forces on the ISGMR in Cd, Sn, and Pb isotopes. The various calculated energies and the strength distributions of the ISGMR are compared with available experimental data. We find that SkP underestimates the various energies for all isotopes due to its low value of the nuclear matter incompressibility; namely, K ∞ = 202 MeV. However, it can give a better description on the constrained energies for Cd isotopes and a reasonable peak energy for some nuclei. On the other hand, the SLy5 parameter set, supplemented by an appropriate pairing interaction, gives a reasonable description of the scaling energies in Cd and Sn isotopes and a good centroid energy in Pb isotopes. A better description of ISGMR in Cd and Sn isotopes is achieved by the SkM * interaction, which has a somewhat softer value of the nuclear incompressibility.

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Results and Discussion

Patel¹

2015

A Study of the Isoscalar Giant Monopole Resonance

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Giant monopole resonance in even-A Cd isotopes, the asymmetry term in nuclear incompressibility, and the “softness” of Sn and Cd nuclei

Cited by 70 publications

References 48 publications

Incompressibility of finite fermionic systems: Stable and exotic atomic nuclei

Incompressibility of finite fermionic systems: Stable and exotic atomic nuclei

Microscopic study of the isoscalar giant monopole resonance in Cd, Sn, and Pb isotopes

Results and Discussion

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