Abstract

Abstract Evaluating the formation of clusters in finite and infinite nuclear systems is a fundamental problem in nuclear physics, and the variation in clustering in the isotope chain up to the neutron drip-line is one such intriguing phenomenon. Recently, experiments performed using the (p, pα) reactions have revealed a negative correlation between α-cluster formation and neutron number in Sn isotopes, showing a trend opposite to that theoretically predicted for Be and B isotopes. Although the observed charge radii of the Be and B isotopes suggest the formation of clusters as the neutron drip-line is approached, these radii themselves are not a physical quantity that can directly probe the cluster structure. Here, we directly investigate the cluster formation in Be and B isotopes to elucidate the possibility of clustering as the neutron drip-line is approached. It has been shown that the sum of the S-factors (i.e., S(α), S(6He), and S(8He)) increases as the neutron drip-line approaches, in agreement with those of previous studies. The results indicate that the excess neutrons contribute to the formation of 6He and 8He clusters as well as α clusters. Thus, S(α) is not sufficient to estimate the enhancement of clustering in Be and B isotopes.

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