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Shell corrections for finite depth potentials: particle continuum effects

T. Vertse
(
- Budapest, RMKI and
- Oak Ridge and
- Royal Inst. Tech., Stockholm
)
,
A.T. Kruppa
(
- Budapest, RMKI
)
,
R.J. Liotta
(
- Royal Inst. Tech., Stockholm
)
,
W. Nazarewicz
(
- Tennessee U. and
- Oak Ridge and
- Warsaw U.
)
,
N. Sandulescu
(
- Royal Inst. Tech., Stockholm and
- Bucharest, IFIN-HH
)

Feb, 1998

18 pages

Published in:

Phys.Rev.C 57 (1998) 3089-3098

e-Print:

nucl-th/9802014 [nucl-th]

DOI:

10.1103/PhysRevC.57.3089

View in:

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Abstract:

Shell corrections of finite, spherical, one-body potentials are analyzed using a smoothing procedure which properly accounts for the contribution from the particle continuum, i.e., unbound states. Since the plateau condition for the smoothed single-particle energy seldom holds, a new recipe is suggested for the definition of the shell correction. The generalized Strutinsky smoothing procedure is compared with the results of the semi-classical Wigner-Kirkwood expansion. A good agreement has been found for weakly bound nuclei in the vicinity of the proton drip line. However, some deviations remain for extremely neutron-rich systems due to the pathological behavior of the semi-classical level density around the particle threshold.

Note:

18 pages, 8 figures

References(28)

Figures(0)

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