Double folding model analysis of 7Li scattering☆
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Cited by (63)
Nuclear Structure and Decay Data for A=44 Isobars
2023, Nuclear Data SheetsElastic and inelastic scattering of <sup>15</sup>N ions by <sup>9</sup>Be at 84 MeV
2016, Nuclear Physics ACitation Excerpt :Early work to put heavy-ion elastic scattering potentials on a more fundamental level by the use of semi-microscopic double folding potentials [1] showed, that the majority of the interactions could be well described except for the three nuclei 6Li, 7Li and 9Be. For these three nuclei, the strengths of the calculated real potentials had to be reduced by ∼0.6 [2,3]. Since these three nuclei have relatively low break up energies and strong polarizability, it was considered that these conditions produced the need for this strength reduction.
<sup>6</sup>Li(<sup>18</sup>O, <sup>17</sup>O)<sup>7</sup>Li reaction and comparison of <sup>6, 7</sup>Li+<sup>16, 17, 18</sup>O potentials
2014, Nuclear Physics ACitation Excerpt :The imaginary parts of the different scattering systems differ considerably at small separation distances but are similar in the peripheral scattering region for the systems 7Li + 17O and 7Li + 16O. Early reaction analyses with real double folded potentials [20,21] suggested that their use allowed anomalies in scattering and reactions to be found. Recent use of folding potentials [22,23] has solidified their importance for use in the analysis of transfer reactions with exotic nuclei in the exit channels with only imaginary potentials uncertain.
Nuclear Data Sheets for A = 44
2011, Nuclear Data Sheets
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Supported in part by the National Science Foundation.
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Present Address: Department of Physics, Rutgers University, New Brunswick, NJ 08903, USA