Inclusive α Production for 6Li+51V System

Abstract

Measurement of angular distributions and energy spectra of α and deuterons through breakup, transfer and incomplete fusion processes to dis-entangle their relative contributions and to investigate relative importance of breakup-fusion compared to transfer. Inclusive α production cross-sections have been measured for 6Li + 51V system near Coulomb barrier energies. Theoretical calculations for estimation of various reaction channels contributing to α production have been performed with finite range coupled reaction method using FRESCO code. The cross-sections from non-capture breakup (NCBU) (α + d) and 1n, 1p, and 1d transfer channels, compound nuclear decay channel and incomplete fusion (ICF) leading to α production were estimated to get the cumulative production cross-sections. Contributions from breakup, transfer and incomplete fusion channels could reproduce the integral direct α production cross-sections and their angular distributions quite well. The direct α production cross-sections are in agreement with other targets. The α production cross-sections are higher compared to the deuteron production. Kinematic analysis of the energy spectra of α particles and deuterons suggest that α particle spectra is dominated by breakp-fusion and deuteron spectra have contribution of breakup and transfer reactions. A systematic study of direct α production with various targets follow a universal behavior on average but noticeable differences are observed for different targets. A ratio of α and deuteron yields for a wide mass range of targets shows a saturation above barrier and an increasing production of α particles relative to deuteron around Coulomb barrier.

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