S. Moon
University of Liverpool
4 Papers
5 Citations
S. Moon is an academic researcher from University of Liverpool. The author has contributed to research in topics: Island of stability & Electronic band structure. The author has an hindex of 4, co-authored 4 publications.
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Papers
Nuclear isomers in superheavy elements as stepping stones towards the island of stability
R-D Herzberg,Paul Greenlees,P. A. Butler,G. D. Jones,M. Venhart,Iain Darby,S. Eeckhaudt,K. J. Eskola,T. Grahn,C. Gray-Jones,F. P. Hessberger,P.M. Jones,R. Julin,S. Juutinen,Steffen Ketelhut,W. Korten,Matti Leino,A.-P. Leppänen,S. Moon,M. Nyman,Robert Page,Janne Pakarinen,Janne Pakarinen,A. Pritchard,P. Rahkila,Jan Sarén,C. Scholey,A. Steer,Y. Sun,Ch. Theisen,Juha Uusitalo +30 more
TL;DR: A study of the nobelium isotope 254No, with 102 protons and 152 neutrons, finds three excited structures, two of which are isomeric (metastable) and one of these structures is firmly assigned to a two-proton excitation, which provide a microscopic benchmark for nuclear models of the superheavy elements.
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High- K structure in Fm 250 and the deformed shell gaps at N = 152 and Z = 100
Paul Greenlees,R-D Herzberg,Steffen Ketelhut,P. A. Butler,P. Chowdhury,T. Grahn,C. Gray-Jones,G. D. Jones,Peter M. Jones,R. Julin,S. Juutinen,T. L. Khoo,Matti Leino,S. Moon,M. Nyman,Janne Pakarinen,P. Rahkila,D. Rostron,Jan Sarén,C. Scholey,Juha Sorri,S. K. Tandel,Juha Uusitalo,M. Venhart +23 more
TL;DR: In this article, the structure of high-spin and nonyrast states of the transfermium nucleus was studied in detail, and the configuration of an isomer first discovered over 30 years ago was deduced, and provided an unambiguous determination of the location of neutron singleparticle states in a very heavy nucleus.
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gamma-Ray Spectroscopy at the Limits : First Observation of Rotational Bands in Lr-255
Steffen Ketelhut,Paul Greenlees,Dieter Ackermann,S. Antalic,Emyr Clement,I. G. Darby,O. Dorvaux,A. Drouart,S. Eeckhaudt,B. J. P. Gall,Andreas Görgen,T. Grahn,C. Gray-Jones,K. Hauschild,R-D Herzberg,F. P. Hessberger,Ulrika Jakobsson,G. D. Jones,Peter B. Jones,R. Julin,S. Juutinen,T. L. Khoo,W. Korten,M. Leino,A.-P. Leppänen,J. Ljungvall,S. Moon,M. Nyman,A. Obertelli,Janne Pakarinen,E. Parr,Philippos Papadakis,Pauli Peura,J. Piot,A. Pritchard,P. Rahkila,D. Rostron,Panu Ruotsalainen,M. Sandzelius,Jan Sarén,C. Scholey,Juha Sorri,A. Steer,B. Sulignano,Theisen Ch,Juha Uusitalo,M. Venhart,M. Zielińska,M. Bender,P.-H. Heenen +49 more
TL;DR: The rotational band structure of Lr-255 has been investigated using advanced in-beam gamma-ray spectroscopic techniques as mentioned in this paper, which is the largest nucleus to date to be studied in this manner.
36
Isomer spectroscopy in No-254
R-D Herzberg,Paul Greenlees,P. A. Butler,G. D. Jones,Iain Darby,S. Eeckhaudt,T. Grahn,C. Gray-Jones,F. P. Hessberger,Peter M. Jones,R. Julin,S. Juutinen,S. Ketelhut,S. Ketelhut,Matti Leino,A-P Leppanen,S. Moon,M. Nyman,Robert Page,Janne Pakarinen,A. Pritchard,P. Rahkila,M. Sandzelius,M. Sandzelius,Jan Sarén,C. Scholey,A. N. Steer,A. N. Steer,J. Uusitalo,J. Uusitalo,M. Venhart +30 more
TL;DR: In this paper, isomeric states in No-254 were investigated using a calorimetric method, and two different isomers were found with half-lives of T-1/2 = 266 +/- 2 ms and T-2 = 184 +/- 3 mu s, respectively.
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