M. Guttormsen
University of Oslo
46 Papers
535 Citations
M. Guttormsen is an academic researcher from University of Oslo. The author has contributed to research in topics: Pairing & Neutron. The author has an hindex of 17, co-authored 46 publications. Previous affiliations of M. Guttormsen include University of Bonn.
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Papers
Extraction of level density and gamma strength function from primary gamma spectra
TL;DR: In this article, the level density and the gamma strength function were extracted from primary gamma spectra for energies close up to the neutron binding energy for the Yb-173(He-3,alpha)Yb-172 reaction.
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Frequency and Alignment Classification of Multiple Band Crossings
L. L. Riedinger,O. Andersen,S. Frauendorf,J.D. Garrett,J. J. Gaardhøje,G.B. Hagemann,B. Herskind,Y. V. Makovetzky,J. C. Waddington,M. Guttormsen,P.O. Tjøm +10 more
TL;DR: In this article, the fingerprint of a band crossing based upon the crossing frequency and gain in aligned angular momentum is demonstrated and the results compared to cranking-model calculations to suggest quasiparticle assignments for the bands.
97
High-spin structure in 169W and 170W
J. Recht,Y.K. Agarwal,K.P. Blume,M. Guttormsen,H. Hübel,H. Kluge,K. H. Maier,A. Maj,N. Roy,D. J. Decman,J. Dudek,Witold Nazarewicz +11 more
TL;DR: In this paper, the nuclear shape evolution with increasing spin is studied theoretically within a configuration-controlled shell correction approach and also pairing effects are studied under the framework of a pairing-selfconsistent cranking model.
40
Particle-rotor model description of the negative-parity states in the transitional 151Sm nucleus
TL;DR: In this paper, the recoil term in the particle-rotor Hamiltonian is interpreted as a many-body term and the potential parameters k and μ of the Nilsson potential are determined from the experimental single-particle energies in the spherical limit.
37
Decay of the ground state and the 292+ isomer in 217Ac and g-factor measurements from perturbed α-particle angular distributions
D. J. Decman,H. Grawe,H. Kluge,K. H. Maier,A. Maj,N. Roy,Y.K. Agarwal,K.P. Blume,M. Guttormsen,H. Hübel,J. Recht +10 more
TL;DR: In this paper, the authors studied the α-decay of the ground state 217mAc using αγ, γγ, α-ce and ce-ce coincidence experiments as well as γ-ray and α-particle perturbed angular distribution studies.
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