Three-body analysis reveals the significant contribution of minor 5He s-wave component in 6Li(p,2p)5He cross section
Abstract
6Li is usually treated as an α+p+n three-body system, and the validity of this picture is important for understanding 6Li reactions. The (p,2p) reaction is a powerful method to study the structure of valence nucleons in 6Li. Recently, the new experimental data of the 6Li(p,2p)5He reaction have been obtained and should be analyzed. We investigate the 6Li(p,2p)5He reaction using the α+p+n three-body wave function of 6Li and study the validity of this model. We calculate the 6Li wave function by using Gaussian expansion method, and the function is used to obtain the relative wave function between p and 5He. We combine the relative wave function with the distorted wave impulse approximation. Our results reproduce the experimental data of the triple differential cross section within about 10\% difference in the absolute values, and contributions from both p- and s-wave states of 5He in 6Li are found to be important. We can qualitatively understand the 6Li(p,2p)5He reaction by describing 6Li with the three-body model. Contribution from the s-wave component is important in reproducing the experimental data in the zero recoil-momentum region.
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