Shell-structure inertia for slow collective motion |
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Authors: | A G Magner A M Gzhebinsky S N Fedotkin |
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Institution: | (1) Institute for Nuclear Research, Kyiv, 03680, Ukraine |
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Abstract: | The modified shell correction method is suggested for the calculation of transport coefficients in a slow nuclear collective
dynamics. For the multipole low-lying vibrations near the spherical shape of a nucleus, the smooth transport coefficients
corresponding to the extended Thomas-Fermi approach are used as a macroscopic background. The time-dependent mean field is
approximated through the infinitely deep square-well potential for the calculation of the shell corrections. Significant shell
effects in stiffness and inertia are found at small temperatures. These effects disappear approximately at the same large
enough temperature as in the free energy. It is shown that the collective inertia is substantially larger than that of irrotational
flow owing to the consistency condition of particle density and potential variations. The collective vibration energies and
reduced friction and effective damping coefficients with accounting for the shell effects are in better agreement with allowance
data than that found from the hydrodynamic model.
The text was submitted by the authors in English. |
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