Physics – Nuclear Physics
Scientific paper
Mar 1991
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991phrvc..43.1352w&link_type=abstract
Physical Review C (Nuclear Physics), Volume 43, Issue 3, March 1991, pp.1352-1362
Physics
Nuclear Physics
3
Statistical Compound-Nucleus Reactions, Statistical Multistep Direct Reactions, Energy Loss And Stopping Power
Scientific paper
Ion-range recoil data were obtained during activated-foil measurements of excitation functions for proton-, deuteron-, and triton-induced reactions on selected targets. These data were analyzed by using the Lindhard, Scharf, and Schiøtt range-energy theory. An important feature of our analysis was the use of angular distributions from the recent Kalbach systematics based on multistep compound and multistep direct reactions. Furthermore, we used the (p,n) data to fix the parameters of LSS theory, and then applied the theory to (d,n), (d,2n), (t,2n), (t,α) and (d,α) reactions. The adjustments to the LSS-theory parameters were less than 10%. The comparisons of the data with calculations demonstrate several important aspects of the reaction mechanisms, e.g., transition from equilibrium to direct reaction, breakup of the deuteron and triton in the reaction entrance channel, and pickup for triton-induced reactions. Overall, the ion-range measurements give a consistent picture of the reaction mechanisms involved.
Lanier R. G.
Mustafa Munshi G.
O'brien H.
West H. I.
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