The energies and matter densities of finite nuclei under radial compression are investigated by using a constrained Hartree-Fock method with the D degree of freedom included. The results are presented for the doubly-magic nucleus 100Sn in an effective baryon-baryon interaction. It is found that as the nucleus is compressed to about three time of the ordinary nuclear density, the D component is sharply increased to about 17% of all baryons in the system. This result is consistent with the values extracted from relativistic heavy-ion collisions. The single particle energy levels calculated and their behaviors under compression examined too. A good agreement between results with effective Hamiltonian and the phenomenological shell model for the low lying single-particle spectra obtained. A considerable reduction in compressibility for the nucleus, and softening of the equation of state with the inclusion of the D 's in the nuclear dynamics are suggested by the results.
Alan : Fen Bilimleri ve Matematik
Dergi Türü : Uluslararası
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