Neutron-transfer reaction studies with fission fragment radioactive ion beams near ¹³²Sn

J. A. Cizewski, Rutgers University–New Brunswick
K. L. Jones, Rutgers University–New Brunswick
R. L. Kozub, Tennessee Technological University
S. D. Pain, Rutgers University–New Brunswick
A. Adekola, Ohio University
D. W. Bardayan, ORNL Physics Division
J. C. Blackmon, ORNL Physics Division
W. N. Catford, University of Surrey
K. Y. Chae, The University of Tennessee, Knoxville
K. A. Chipps, Colorado School of Mines
L. Erikson, Colorado School of Mines
A. Gaddis, Oak Ridge Associated Universities
R. Grzywacz, The University of Tennessee, Knoxville
C. Harlin, University of Surrey
R. Hatarik, Rutgers University–New Brunswick
J. Howard, Rutgers University–New Brunswick
M. S. Johnson, Oak Ridge Associated Universities
R. Kapler, The University of Tennessee, Knoxville
W. Królas, Henryk Niewodniczanski Institute of Nuclear Physics of the Polish Academy of Sciences
J. F. Liang, ORNL Physics Division
R. Livesay, Colorado School of Mines
Z. Ma, The University of Tennessee, Knoxville
C. Matei, Oak Ridge Associated Universities
B. Moazen, The University of Tennessee, Knoxville
C. D. Nesaraja, The University of Tennessee, Knoxville
P. O'Malley, Rutgers University–New Brunswick
S. V. Paulauskas, Tennessee Technological University
W. A. Peters, Rutgers University–New Brunswick
D. Shapira, ORNL Physics Division
J. F. Shriner, Tennessee Technological University
D. J. Sissom, Tennessee Technological University
M. S. Smith, ORNL Physics Division
T. P. Swan, Rutgers University–New Brunswick

Abstract

Neutron transfer (d, p) reactions have been measured with neutron-rich fission fragment beams of 130,132Sn and 134Te populating l = 1 and l = 3 excitations above the N = 82 shell gap. Preliminary results and future prospects are discussed. © 2009 American Institute of Physics.