Continuum Skyrme Hartree–Fock–Bogoliubov theory with Green’s function method for neutron-rich Ca, Ni, Zr, and Sn isotopes
The possible exotic nuclear properties in the neutron-rich Ca, Ni, Zr, and Sn isotopes are examined with the continuum Skyrme Hartree–Fock–Bogoliubov theory in the framework of the Green’s function method. The pairing correlation, the couplings with the continuum, and the blocking effects for the un...
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Veröffentlicht in: | Nuclear science and techniques 2023-07, Vol.34 (7), p.147-163, Article 105 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The possible exotic nuclear properties in the neutron-rich Ca, Ni, Zr, and Sn isotopes are examined with the continuum Skyrme Hartree–Fock–Bogoliubov theory in the framework of the Green’s function method. The pairing correlation, the couplings with the continuum, and the blocking effects for the unpaired nucleon in odd-
A
nuclei are properly treated. The Skyrme interaction SLy4 is adopted for the
ph
channel and the density-dependent
δ
interaction is adopted for the
pp
channel, which well reproduce the experimental two-neutron separation energies
S
2n
and one-neutron separation energies
S
n
. It is found that the criterion
S
n
>
0
predicts a neutron drip line with neutron numbers much smaller than those for
S
2n
>
0
. Owing to the unpaired odd neutron, the neutron pairing energies
-
E
pair
in odd-
A
nuclei are much lower than those in the neighboring even–even nuclei. By investigating the single-particle structures, the possible halo structures in the neutron-rich Ca, Ni, and Sn isotopes are predicted, where sharp increases in the root-mean-square (rms) radii with significant deviations from the traditional
r
∝
A
1
/
3
rule and diffuse spatial density distributions are observed. Analyzing the contributions of various partial waves to the total neutron density
ρ
lj
(
r
)
/
ρ
(
r
)
reveals that the orbitals located around the Fermi surface—particularly those with small angular momenta—significantly affect the extended nuclear density and large rms radii. The number of neutrons
N
λ
(
N
0
) occupying above the Fermi surface
λ
n
(continuum threshold) is discussed, whose evolution as a function of the mass number
A
in each isotope is consistent with that of the pairing energy, supporting the key role of the pairing correlation in halo phenomena. |
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ISSN: | 1001-8042 2210-3147 |
DOI: | 10.1007/s41365-023-01261-9 |