T. Bihn
University of Bonn
5 Papers
8 Citations
T. Bihn is an academic researcher from University of Bonn. The author has contributed to research in topics: Ground state & Internal conversion. The author has an hindex of 3, co-authored 5 publications.
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Papers
Investigation of224Ra in the226Ra(α, α′ 2n) reaction
M. Marten-Tölle,B. Ackermann,H. Baltzer,T. Bihn,V. Grafen,C. Günther,H. Hausmann,N. Singh,R. Tölle,J. de Boer,N. Gollwitzer +10 more
- 01 Mar 1990
TL;DR: In this article, positive and negative parity bands have been followed up up to 10+ (possibly 12+) and 11− in224Ra and compared to the corresponding bands in the isotone226Th.
49
In-beam spectroscopy of 231 Pa
J. de Boer,N. Gollwitzer,A. Lösch,H.J. Maier,Harald J. W. Müller,M. Rohn,B. Ackermann,T. Bihn,V. Grafen,C. Günther,M. Marten-Tölle,N. Singh,R. Tölle +12 more
TL;DR: In this article, the results of the rotational model applied to the 1/2−[530] Nilsson state were analyzed in the context of the Coulomb excitation process.
7
Level structure of 217 Rn and 221 Ra investigated in the alpha-decay 225 Th → 221 Ra → 217 Rn
B. Ackermann,T. Bihn,P. A. Butler,V. Grafen,C. Günther,J. R. Hughes,G. D. Jones,C. Lauterbach,H.J. Maier,M. Marten-Tölle,R. Tölle,R. Wadsworth,D. L. Watson,C.A. White +13 more
TL;DR: In this article, the α-decay chain225Th→221Ra →217Rn through γ-ray and conversion-electron studies was investigated, and the short-lived 225Th nuclei (T 1/2=8min) were produced in the226Ra(α, 5n) reaction, and γrays and conversion electrons were measured in coincidence with αparticles.
4
The rotational bands in the nuclei 229Pa and 231Pa
TL;DR: In this paper, the similarity between the rotational spectra built on the 12−[530] state in 231Pa and in 229Pa, where the 32− member of the band forms the ground state, was established.
Does a 5/2(+)-5/2(-) ground-state parity doublet exist in 229Pa?
V. Grafen,B. Ackermann,H. Baltzer,T. Bihn,C. Günther,J. deBoer,N. Gollwitzer,G. Graw,Ralf Hertenberger,H. Kader,A. I. Levon,A. Lösch +11 more
TL;DR: It is found that the 3/2{sup {minus}} band head has an excitation energy of 19(10) keV, and can thus not be identified with a 123 keV level observed in the {sup 229}U electron capture decay.