Single Quasiparticle Data
-
The following are single quasiparticle states in magic and doubly-magic nuclei
obtained with the following energy density functionals: SkM*, SkP, SLy4, SV-
min, UNEDF0, UNEDF1, and UNEDF2 (see below for references). The
Hartree-Fock-Bogoliubov (HFB) calculations were carried out using the DFT solver
HFBTHOv200d (see reference below).
-
The calculations strictly follow the scheme described in Sec. III. B of the
UNEDF2 reference below. Namely, the effective particle and hole single-
quasiparticle energies were obtained by applying the HFB approach with the
equal-filling approximation to blocking. The labels "hole" and "particle" refer to
whether the corresponding quasiparticle levels would be, respectively, fully
occupied or empty in the corresponding Hartree-Fock calculation of the magic
or doubly-magic nucleus.
208Pb-neutrons
(.pdf)
208Pb-protons
(.pdf)
132Sn-neutrons
(.pdf)
132Sn-protons
(.pdf)
100Sn-neutrons
(.pdf)
100Sn-protons
(.pdf)
90Zr-neutrons
(.pdf)
90Zr-protons
(.pdf)
78Ni-neutrons
(.pdf)
78Ni-protons
(.pdf)
56Ni-neutrons
(.pdf)
56Ni-protons
(.pdf)
48Ca-neutrons
(.pdf)
48Ca-protons
(.pdf)
40Ca-neutrons
(.pdf)
40Ca-protons
(.pdf)
16O-neutrons
(.pdf)
16O-protons
(.pdf)
Quasiparticle States-Neutrons
(Excel file)
Quasiparticle States-Protons
(Excel file)
Reference for the figures and numbers above:
- http://massexplorer.frib.msu.edu.
Reference for the code used for these calculations:
- Stoitsov et al., Comp. Phys. Comm. 184, 1592 (2013).
References for the individual energy density functionals:
-
SkM*: Bartel et al., Nucl. Phys. A 386, 79 (1982).
-
SkP: Dobaczewski et al., Nucl. Phys. A 422, 103 (1984).
-
SLy4: Chabanat et al., Nucl. Phys. A 635, 231 (1998).
-
SV-min: Klupfel et al., Phys. Rev. C 79, 034310 (2009).
-
UNEDF0: Kortelainen et al., Phys. Rev. C 82, 024313 (2010).
-
UNEDF1: Kortelainen et al., Phys. Rev. C 85, 024304 (2012).
-
UNEDF2: Kortelainen et al., Phys. Rev. C 89, 054314 (2014).