24 Papers
106 Citations
D. Hofer is an academic researcher from Ludwig Maximilian University of Munich. The author has contributed to research in topics: Excited state & Nuclear reaction. The author has an hindex of 8, co-authored 24 publications.
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Papers
The nuclear structure of 229Pa from the 231Pa(p,t)229Pa and 230Th(p,2nγ)229Pa reactions
A. I. Levon,J. de Boer,G. Graw,Ralf Hertenberger,D. Hofer,J. Kvasil,A. Lösch,E. Müller-Zanotti,M. Würkner,H. Baltzer,V. Grafen,C. Günther +11 more
TL;DR: In this paper, the level structure of the 229Pa nucleus was investigated by means of the 231Pa(p,t)229Pa and 230Th(p 2nγ) 229Pa reactions and the results of in-beam conversion electron and γ-ray spectroscopy to establish a level scheme.
27
Excitations in208Pb nearEx=5683 keV
TL;DR: In this article, a search for the two-phonon octupole vibrational (2-POV) 4+ or 6+ state in208Pb at an excitation energy of 5683 keV has been performed using the207Pb(d,p),208pb(p,p′) and (α,α′) reactions at high energy resolution.
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Investigation of the {sup 128}Ba nucleus with the (p,t) reaction
S. Pascu,Gh. Căta-Danil,D. Bucurescu,N. Marginean,N. V. Zamfir,G. Graw,A. Gollwitzer,D. Hofer,B. D. Valnion +8 more
TL;DR: The low lying states in {sup 128} Ba have been investigated for the first time with the {sup 130}Ba(p,t) reaction as mentioned in this paper, which was performed at the Munich Q3D magnetic spectrograph with a 25-MeV proton beam and a high-resolution, 1.5m long focal plane detector.
14
Monopole transfer strength to 132,134Ba in (p,t) reactions and the interacting boson approximation.
Gh. Căta-Danil,D. Bucurescu,L. Trache,A. M. Oros,M. Jaskola,A. Gollwitzer,D. Hofer,S. Deylitz,B. D. Valnion,G. Graw +9 more
TL;DR: The monopole transfer strength shows distributions similar to those observed for {sup 194,196}Pt, consistent with the O(6) limit of the interacting boson approximation (IBA-1) model, without ruling out other, more microscopically based interpretations for the low-lying structure of these nuclei.
14
Study of 110Cd via the 111Cd(, t) reaction
N. Blasi,S. Micheletti,M. Pignanelli,R. De Leo,Ralf Hertenberger,M. Bisemberger,D. Hofer,H. Kader,P. Schiemenz,G. Graw +9 more
TL;DR: In this article, the reaction 111 Cd( d, t) 110 Cd has been studied with an energy resolution of 5-9 keV using a 22 MeV polarized deuteron beam.
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