Measurements of fusion cross-sections in 12C 12C at low beam energies using a particle-γ coincidence technique
C. L. Jiang, Argonne National Laboratory
K. E. Rehm, Argonne National Laboratory
X. Fang, University of Notre Dame
X. D. Tang, University of Notre Dame
M. Alcorta, Argonne National Laboratory
B. B. Back, Argonne National Laboratory
B. Bucher, University of Notre Dame
P. Collon, University of Notre Dame
C. M. Deibel, Argonne National Laboratory
B. Digiovine, Argonne National Laboratory
J. P. Greene, Argonne National Laboratory
D. J. Henderson, Argonne National Laboratory
R. V.F. Janssens, Argonne National Laboratory
T. Lauritsen, Argonne National Laboratory
C. J. Lister, Argonne National Laboratory
S. T. Marley, Argonne National Laboratory
R. C. Pardo, Argonne National Laboratory
D. Seweryniak, Argonne National Laboratory
C. Ugalde, Argonne National Laboratory
S. Zhu, Argonne National Laboratory
M. Paul, Hebrew University of Jerusalem
Abstract
A particle-γ coincidence technique has been used to measure the fusion cross-section in the system 12C 12C at low beam energies. Based on these results, it should be possible to measure this important fusion cross-section down to the 10 pb level within a week-long run. © 2012 Elsevier B.V. All rights reserved.