Physics – Nuclear Physics – Nuclear Theory
Scientific paper
1995-08-31
Phys.Rev.C53:1368-1373,1996
Physics
Nuclear Physics
Nuclear Theory
16 pages (REVTEX), 6 figures (uuencoded Postscript) optionally included using epsfig.sty
Scientific paper
10.1103/PhysRevC.53.1368
The present work is an extension of a previous study of the nucleon-nucleon interaction based on the chromo-dielectric soliton model. The former approach was static, leading to an adiabatic potential. Here we perform a dynamical study in the framework of the Generator Coordinate Method. In practice, we derive an approximate Hill-Wheeler differential equation and obtain a local nucleon-nucleon potential as a function of a mean generator coordinate. This coordinate is related to an effective separation distance between the two nucleons by a Fujiwara transformation. This latter relationship is especially useful in studying the quark substructure of light nuclei. We investigate the explicit contribution of the one-gluon exchange part of the six-quark Hamiltonian to the nucleon-nucleon potential, and we find that the dynamics are responsible for a significant part of the short-range N-N repulsion.
Koepf Wolfram
Pepin Stephane
Stancu Fl.
Wilets L.
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