Isotopic yields of neutron-rich nuclei from deep-inelastic reactions

S. J. Asztalos, I. Y. Lee, K. Vetter, B. Cederwall, R. M. Clark, M. A. Deleplanque, R. M. Diamond, P. Fallon, K. Jing, L. Phair, A. O. Macchiavelli, F. S. Stephens, G. J. Wozniak, L. A. Bernstein, D. P. McNabb, P. F. Hua, D. G. Sarantites, J. X. Saladin, C. H. Yu, J. A. Cizewski

Research output: Contribution to journalArticlepeer-review

Abstract

We follow up on our earlier work involving a light projectile [Formula Presented] to populate high spin states in neutron-rich nuclei with results from experiments involving a heavier projectile [Formula Presented] for the purposes of studying isotopic yields. These yields, which in some cases were measurable down to a level of 0.1% of the total reaction cross section, are presented from three separate reactions. A trend in the isotopic yields towards [Formula Presented] equilibration is observed in one experiment having a large disparity in [Formula Presented] ratios between the projectile and target. In the two other reactions, where the [Formula Presented] driving force is less pronounced, the yields are instead clustered around the projectile and target nuclei. We present correlated projectilelike and targetlike fragment isotopic yields derived from [Formula Presented] coincidences, a technique that enables one to partition the yield of an isotope according to the amount of neutron evaporation. Using this method we find that for the zero-neutron evaporation channel transfer occurs predominantly into the light fragment, consistent with the nature of the deep-inelastic mechanism. We further find that multiple-neutron evaporation contributes substantially to the yields of the isotopes.

Original languageEnglish
Pages (from-to)6
Number of pages1
JournalPhysical Review C - Nuclear Physics
Volume61
Issue number1
DOIs
StatePublished - 2000
Externally publishedYes

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