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W2090682360 abstract "Shell corrections to the nuclear binding energy as a measure of shell effects in superheavy nuclei are studied within the self-consistent Skyrme-Hartree-Fock and relativistic mean-field theories. As a result of the presence of a low-lying proton continuum resulting in a free particle gas, special attention is paid to the treatment of the single-particle level density. To cure the pathological behavior of the shell correction around the particle threshold, a method based on the Green's function approach has been adopted. It is demonstrated that for the vast majority of Skyrme interactions commonly employed in nuclear structure calculations, the strongest shell stabilization appears for $Z=124$ and 126, and for $N=184.$ On the other hand, in the relativistic approaches the strongest spherical shell effect appears systematically for $Z=120$ and $N=172.$ This difference probably has its roots in the spin-orbit potential. We have also shown that, in contrast to shell corrections which are fairly independent of the force, macroscopic energies extracted from self-consistent calculations strongly depend on the actual force parametrization used. That is, the A and Z dependence of the mass surface when extrapolating to unknown superheavy nuclei is prone to significant theoretical uncertainties." @default.
W2090682360 created "2016-06-24" @default.
W2090682360 creator A5006845865 @default.
W2090682360 creator A5029111186 @default.
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W2090682360 creator A5068545466 @default.
W2090682360 creator A5077431498 @default.
W2090682360 creator A5087876215 @default.
W2090682360 date "2000-02-17" @default.
W2090682360 modified "2023-10-17" @default.
W2090682360 title "Shell corrections of superheavy nuclei in self-consistent calculations" @default.
W2090682360 cites W1583879459 @default.
W2090682360 cites W1614590832 @default.
W2090682360 cites W1619585869 @default.
W2090682360 cites W1664759444 @default.
W2090682360 cites W1789162628 @default.
W2090682360 cites W1896196146 @default.
W2090682360 cites W1944025014 @default.
W2090682360 cites W1965952013 @default.
W2090682360 cites W1967135136 @default.
W2090682360 cites W1967695597 @default.
W2090682360 cites W1971911424 @default.
W2090682360 cites W1973866744 @default.
W2090682360 cites W1975403472 @default.
W2090682360 cites W1976222174 @default.
W2090682360 cites W1978182946 @default.
W2090682360 cites W1978867910 @default.
W2090682360 cites W1981630582 @default.
W2090682360 cites W1987003539 @default.
W2090682360 cites W1988307992 @default.
W2090682360 cites W1988716226 @default.
W2090682360 cites W1991264921 @default.
W2090682360 cites W1994055522 @default.
W2090682360 cites W1997159713 @default.
W2090682360 cites W1997300181 @default.
W2090682360 cites W1999137307 @default.
W2090682360 cites W2002442640 @default.
W2090682360 cites W2003056928 @default.
W2090682360 cites W2004376326 @default.
W2090682360 cites W2007295092 @default.
W2090682360 cites W2007779595 @default.
W2090682360 cites W2011920119 @default.
W2090682360 cites W2015004712 @default.
W2090682360 cites W2015273163 @default.
W2090682360 cites W2019269998 @default.
W2090682360 cites W2020464956 @default.
W2090682360 cites W2028602078 @default.
W2090682360 cites W2030606105 @default.
W2090682360 cites W2030614548 @default.
W2090682360 cites W2032940695 @default.
W2090682360 cites W2034100785 @default.
W2090682360 cites W2040178899 @default.
W2090682360 cites W2040711617 @default.
W2090682360 cites W2043211185 @default.
W2090682360 cites W2052180684 @default.
W2090682360 cites W2052280519 @default.
W2090682360 cites W2052592567 @default.
W2090682360 cites W2056186555 @default.
W2090682360 cites W2057850671 @default.
W2090682360 cites W2058098210 @default.
W2090682360 cites W2058279883 @default.
W2090682360 cites W2066101935 @default.
W2090682360 cites W2076845339 @default.
W2090682360 cites W2078107583 @default.
W2090682360 cites W2078430716 @default.
W2090682360 cites W2079933760 @default.
W2090682360 cites W2083482092 @default.
W2090682360 cites W2084977006 @default.
W2090682360 cites W2086197541 @default.
W2090682360 cites W2086683125 @default.
W2090682360 cites W2086697387 @default.
W2090682360 cites W2087884383 @default.
W2090682360 cites W2113416512 @default.
W2090682360 cites W2115897641 @default.
W2090682360 cites W2116637032 @default.
W2090682360 cites W2130066640 @default.
W2090682360 cites W2141144288 @default.
W2090682360 cites W2148543402 @default.
W2090682360 cites W2151937124 @default.
W2090682360 cites W2165257968 @default.
W2090682360 cites W2213285302 @default.
W2090682360 cites W2273790572 @default.
W2090682360 cites W2325328644 @default.
W2090682360 cites W2568261096 @default.
W2090682360 cites W2603642424 @default.
W2090682360 cites W2913574476 @default.
W2090682360 cites W30917970 @default.
W2090682360 cites W4236729341 @default.
W2090682360 cites W4299580424 @default.
W2090682360 doi "https://doi.org/10.1103/physrevc.61.034313" @default.
W2090682360 hasPublicationYear "2000" @default.
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