7 Papers
52 Citations
Rod Clark is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Neutron & Bohr model. The author has an hindex of 4, co-authored 7 publications.
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Papers
Approaching the Island of Inversion: 34P
Peter Bender,Calem Hoffman,M. Wiedeking,M. Wiedeking,J. M. Allmond,L. A. Bernstein,Jason Burke,D. L. Bleuel,Rod Clark,P. Fallon,Bethany L. Goldblum,T. A. Hinners,Henrik B. Jeppesen,Sangjin Lee,I. Y. Lee,S. R. Lesher,A. O. Macchiavelli,M. A. McMahan,David Jonathan Morris,M. Perry,L. W. Phair,Nicholas Scielzo,S. L. Tabor,Vandana Tripathi,Alexander Volya +24 more
TL;DR: In this article, the authors investigated the evolution of structure approaching the "island of inversion", particularly how the one-and two-particle-hole (ph) states fall in energy with increasing neutron number approaching inversion.
Absolute and Relative Surrogate Measurements of the 236U(n,f) Cross Section as a Probe for Angular Momentum Effects
B. F. Lyles,L Bernstein,J Burke,J. Escher,I Thompson,F. S. Dietrich,L. Phair,D. L. Bleuel,J. Gibelin,M Wiedeking,M McMahan,E Rodroguez-Vieitez,Rod Clark,A. O. Macchiavelli,S. R. Lesher,B. Darakchieva,M. Evtimova,C. W. Beausang,P. Fallon +18 more
- 03 Apr 2007
TL;DR: In this paper, the absolute and relative cross sections of the {sup 236}U(n,f) cross section were derived using both relative and absolute surrogate techniques over an equivalent neutron energy range of 0 to 20 MeV.
27
Telling left from right in the nucleus
TL;DR: Pasteur first discovered that molecules have a "handedness" in 1848 while he was studying salts of acids that had been separated and dried from the bottom of old wine casks as mentioned in this paper.
2
The Heaviest Atomic Nuclei and Their Metastable States
TL;DR: In this paper, the authors present a macroscopic model of fission that treats the nucleus as a charged liquid drop and shows that having only a few more protons would mean the nucleus is no longer stable with respect to deformation and it would split into pieces.
2
Deducing the 237U destruction cross-sections using the Surrogate Ratio Method
L. A. Bernstein,J. T. Burke,L. Ahle,J. A. Church,J E Escher,F. S. Dietrich,B.F. Lyles,E. B. Norman,L. Phair,D. L. Bleuel,Rod Clark,P. Fallon,I. Y. Lee,A. O. Macchiavelli,M. A. McMahan,L. G. Moretto,Elena Rodriguez-Vieitez,H. Ai,C. W. Beausang,B. Crider +19 more
- 31 Mar 2006
TL;DR: In this article, the Surrogate Ratio method was used to deduce the destruction cross section of {sup 237}U via the (n, {gamma}) and (n 2 n) reactions over an equivalent neutron energy range of 0 to 20 MeV.