Fusion of light nuclei in a multicluster realization of the three-body problem

Abstract

This work describes a few-body dynamics method based on the Faddeev integral equations in momentum space for determining the total cross sections of fusion and breakup reactions with two- and three-body final channels in the continuum, employing a cluster representation of the colliding nuclei. Total cross sections were obtained for the reactions 3He(T,D)4He, 3He(T,np)4He, 3He(T,nD)3He, 3He(3He,2p)4He, 3He(3He,pD)3He, 7Li(3He,04He)6Li, 7Li(3He,D4He)4He, and 7Li(3He,T3He)4He, in which both the projectile and the target nucleus were treated in a cluster representation. The work also implements a two-potential method to determine the Coulomb t-matrix and to account for Coulomb effects in short-range dynamics in momentum space. Calculations of the initial-state Coulomb interaction were performed; furthermore, an estimate was obtained for the magnitude of the off-shell effect of the Coulomb t-matrix, as well as the magnitude of the atomic electron anti-screening effect on the Coulomb interaction of the colliding nuclei. The calculated contribution of the cluster mechanism to the total cross section of the considered fusion reactions in the kinetic energy range T∈[1~keV,20~MeV] is in good agreement with known experimental data.