K
K. L. Jones
Researcher at University of Tennessee
Publications - 143
Citations - 2403
K. L. Jones is an academic researcher from University of Tennessee. The author has contributed to research in topics: Neutron & Ion beam. The author has an hindex of 23, co-authored 137 publications receiving 2189 citations. Previous affiliations of K. L. Jones include University of Surrey & Los Alamos National Laboratory.
Papers
More filters
Journal ArticleDOI
Nuclear symmetry energy and neutron skins derived from pygmy dipole resonances
A. Klimkiewicz,Nils Paar,P. Adrich,M. Fallot,K. Boretzky,Thomas Aumann,D. Cortina-Gil,U. Datta Pramanik,Th. W. Elze,H. Emling,Hans Geissel,Margareta Hellström,K. L. Jones,J. V. Kratz,R. Kulessa,C. Nociforo,R. Palit,Herbert A. Simon,G. Surówka,K. Sümmerer,Dario Vretenar,W. Waluś +21 more
TL;DR: By exploiting Coulomb dissociation of high-energy radioactive beams of the neutron-rich nuclei, their dipole-strength distributions have been measured as mentioned in this paper, and a sizable fraction of ''pygmy'' dipole strength, energetically located below the giant dipole resonance, is observed in all of these nuclei.
Journal ArticleDOI
Evidence for Pygmy and Giant Dipole Resonances in Sn 130 and Sn 132
P. Adrich,A. Klimkiewicz,M. Fallot,K. Boretzky,Thomas Aumann,D. Cortina-Gil,U. Datta Pramanik,Th. W. Elze,H. Emling,Hans Geissel,Margareta Hellström,K. L. Jones,J. V. Kratz,R. Kulessa,Y. Leifels,C. Nociforo,R. Palit,Herbert A. Simon,G. Surówka,K. Sümmerer,W. Waluś +20 more
TL;DR: In this paper, the dipole strength distribution above the one-neutron separation energy was measured in the unstable and double-magic Sn isotopes, and the results were deduced from Coulomb dissociation of secondary Sn beams with energies around.
Journal ArticleDOI
The magic nature of 132 Sn explored through the single-particle states of 133 Sn
K. L. Jones,K. L. Jones,Aderemi S. Adekola,D. W. Bardayan,Jeffery C. Blackmon,K. Y. Chae,Kelly Chipps,Jolie Cizewski,L. Erikson,C. Harlin,Robert Hatarik,R. Kapler,R. L. Kozub,J. F. Liang,R. J. Livesay,Zhanwen Ma,Brian Moazen,Caroline D Nesaraja,Filomena Nunes,S. D. Pain,N. Patterson,Dan Shapira,J. F. Shriner,Michael Scott Smith,T. P. Swan,T. P. Swan,J. S. Thomas +26 more
TL;DR: Here, the single-particle character of the levels in 133Sn that lie outside the double shell closure present at the short-lived nucleus 132Sn are measured using an inverse kinematics technique that involves the transfer of a single nucleon to the nucleus.
Journal ArticleDOI
Halo structure of (14)Be.
M. Labiche,N. A. Orr,F. M. Marqués,J. C. Angélique,L. Axelsson,B. Benoit,U. C. Bergmann,M. J. G. Borge,W. N. Catford,S. P. G. Chappell,N. M. Clarke,Graziele De Sousa Costa,N. Curtis,A. D'Arrigo,E. de Goes Brennand,O. Dorvaux,Giovanni Fazio,Martin Freer,B. R. Fulton,G. Giardina,S. Grévy,D. Guillemaud-Mueller,F. Hanappe,B. Heusch,K. L. Jones,Björn Jonson,C. Le Brun,S. Leenhardt,M. Lewitowicz,M. J. Lopez,Karin Markenroth,A.C. Mueller,Thomas Nilsson,Alain Ninane,Gunnar Nyman,F. de Oliveira,I. Piqueras,K. Riisager,M. G. Saint Laurent,F. Sarazin,S. M. Singer,O. Sorlin,L. Stuttge +42 more
TL;DR: The two-neutron halo nucleus has been investigated in a kinematically complete measurement of the fragments produced in dissociation at 35 MeV/nucleon on C and Pb targets, and it is suggested that the halo wave function contains a large nu(2s(1/2) admixture.
Journal ArticleDOI
ISOL science at the Holifield Radioactive Ion Beam Facility
J. R. Beene,D. W. Bardayan,A Galindo Uribarri,Carl J Gross,K. L. Jones,J. F. Liang,Witold Nazarewicz,Witold Nazarewicz,Daniel W Stracener,B. A. Tatum,R. L. Varner +10 more
TL;DR: The Holifield Radioactive Ion Beam Facility (HRIBF) provides high-quality Isotope Separator Online beams of short-lived, radioactive nuclei for nuclear structure and reaction studies, astrophysics research, and interdisciplinary applications as discussed by the authors.