B. Erhardt scite author profile

B. Erhardt

2Publications

29Citation Statements Received

61Citation Statements Given

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University of Freiburg, University of Fribourg

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The structure of 32S II. Shell model interpretation

Brenneisen

Erhardt

Glatz

et al. 1997

Z Phys A - Particles and Fields

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The properties of positive-parity states in 32 S are compared to predictions of shell model calculations within the complete s-d basis space using the universal s-d shell Hamiltonian. The experimental T = O spectrum is reproduced to excitation energies between 10 and 11.7 MeV, depending on the level spins. The T = 1 spectrum is known and reproduced for the first five 5 MeV in excitation in general and for the first 8 MeV in the case of I π = 1 + states. Altogether the excitation energies of 80 positive-parity states are reproduced with a rms deviation of 200 keV. A calculation of radiative widths and branching ratios for γ-decay which uses effective charges and free-nucleon g-factors yields good general agreement with experiment. The need for effective g-factors is felt only in the rare cases of transitions which are governed by the isovector d 3/2 → d 5/2 M1 matrix element. The spectrum of negative parity, T = 1 states is understood in terms of the weakcoupling model while that of the T = 0 states is comprised of octupole-quadrupole phonon multiplets. Positive-parity states from outside the s-d configuration are first observed between 9.5 and 10.5 MeV excitation energy.

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The structure of 32S I. Spectroscopy of highly-excited states

Brenneisen

Erhardt

Glatz

et al. 1997

Z Phys A - Particles and Fields

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B. Erhardt

The structure of 32S II. Shell model interpretation

The structure of 32S I. Spectroscopy of highly-excited states

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