A microscopic three-cluster model with nuclear polarization applied to theresonances of <tex>$^{7}Be$</tex> and the reaction <tex>$^{6}Li$</tex> (p, <tex>$^{3}He$</tex>)<tex>$^{4}He$</tex>A microscopic three-cluster model with nuclear polarization applied to theresonances of <tex>$^{7}Be$</tex> and the reaction <tex>$^{6}Li$</tex> (p, <tex>$^{3}He$</tex>)<tex>$^{4}He$</tex>
Faculty of Sciences. Mathematics and Computer Science

Modeling Of Systems and Internet Communication (MOSAIC)

article

2009Amsterdam, 2009

Mathematics

Physics

Nuclear physics: A. - Amsterdam

824(2009), p. 37-57

0375-9474

000271089800003

E

English (eng)

University of Antwerp

A microscopic model for three-cluster configurations in light nuclei is presented. It uses an expansion in terms of Faddeev components for which the dynamic eqations are derived. The model is designed to investigate binary channel processes in a compound system. Gaussian and oscillator bases are used to expand the wave function and to represent appropriate boundary conditions. We study the effect of cluster polarization on ground and resonance states of 7Be, and on the astrophysical S-factor of the reaction 6Li(p,3He)4He.

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