Model calculations of doubly closed shell nuclei in CBF theory. 3. j-j coupling and isospin dependence - INSPIRE

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Model calculations of doubly closed shell nuclei in CBF theory. 3. j-j coupling and isospin dependence

F. Arias de Saavedra
(
- Granada U., Theor. Phys. Astrophys.
)
,
G. Co'
(
- Salento U. and
- INFN, Lecce
)
,
A. Fabrocini
(
- Pisa U. and
- INFN, Pisa
)
,
S. Fantoni
(
- SISSA, Trieste and
- INFN, Trieste
)

Apr, 1996

29 pages

Published in:

Nucl.Phys.A 605 (1996) 359-386

e-Print:

nucl-th/9604013 [nucl-th]

DOI:

10.1016/0375-9474(96)00218-7

View in:

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Abstract:

Correlated Basis Function theory and Fermi Hypernetted Chain technique are extended to study medium-heavy, doubly closed shell nuclei in j-j coupling scheme, with different single particle wave functions for protons and neutrons and isospin dependent two-body correlations. Central semirealistic interactions are used. Ground state energies, one-body densities, distribution functions and momentum distributions are calculated for 12C, 16O, 40Ca, 48Ca and 208Pb nuclei. The values of the ground state energies provided by isospin dependent correlations are lower than those obtained with isospin independent correlations. In finite nuclear systems, the two--body Euler equations provide correlation functions variationally more effective than those obtained with the same technique in infinite nuclear matter.

Note:

29 Latex pages plus 6 Postscript figures

21.10.Dr
21.10.Ft
21.10.Gv
21.90.+f

References(23)

Figures(0)

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