Sub-barrier fusion enhancement due to positive Q-value four-neutron transfer
Abstract
The influence of positive Q-value four-neutron transfer (PQ4NT) effects on the sub-barrier capture cross sections is systematically investigated using the empirical barrier distribution (EBD2) method. For 13 fusion reactions with Q4n>0, sustained neutron-pair transfer is found to reduce barrier heights and enhance capture cross sections at sub-barrier energies. In contrast, reactions such as 18O+58Ni, which have Q2n>0 but Q4n<0, exhibit no enhancement due to the stalling of subsequent neutron-pair transfer after the initial 2n transfer. By incorporating PQ4NT effects into EBD2 for systems with Q4n>0, the average deviation between predicted and experimental capture cross sections (113 datasets) is significantly reduced by 20\%. Additionally, comparing with the systems induced by 48Ca (Q4n<0), much larger neutron pickup probabilities are observed in the quasi-elastic scattering of 40Ca-induced reactions (Q4n>0) from the time-dependent Hartree-Fock (TDHF) calculations.
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