Abstract
A method is presented which allows to derive separable two-cluster interaction potentials from wave functions of the fish bone optical model, or from resonating group wave functions. The two-cluster Pauli effect, as much as it is contained in the off-shell behaviour of the wave functions, is reproduced by the separable interaction. The potentials are real, symmetric and energy-independent. The α-α potential is given as an example.
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Schmid, E.W.: Phys. Rev. C21, 691 (1980)
Schmid, E.W.:N-Cluster Dynamics and Effective Interaction of Composite Particles. II. The Interaction, unpublished
Schmid, E.W.: Z. Phys. A — Atoms and Nuclei297, 105 (1980)
Wheeler, J.A.: Phys. Rev.52, 1083 and 1107 (1937)
Wildermuth, K., Tang, Y.C.: A Unified Theory of the Nucleus. In: Clustering Phenomena of the Nucleus. Vol. 1, Braunschweig: Vieweg 1977
Lovelace, C.: Phys. Rev.135, B 1225 (1964)
Ernst, D.J., Shakin, C.M., Thaler, R.M.: Phys. Rev. C8, 46 (1973)
Horiuchi, H.: Prog. Theor. Phys. Suppl.62, 90 (1977)
Buck, B., Friedrich, H., Wheatley, C.: Phys. A275, 246 (1977)
Zaikin, D.A.: Nucl. Phys. A170, 584 (1971)
Afzal, S.A., Ahmad, A.A.Z., Ali, S.: Rev. Mod. Phys.41, 247 (1969)
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We thank Dr. M. Orlowski for helpful discussions and Dipl.-Phys. K. Hahn for fitting the parameters of the fish bone optical model to the experimental data of the α-α scattering.
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Kircher, R., Schmid, E.W. Pauli-correct separable potentials for composite particle interactions. Z Physik A 299, 241–244 (1981). https://doi.org/10.1007/BF01443941
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DOI: https://doi.org/10.1007/BF01443941