Temperature induced shell effects in deformed nuclei
摘要
The thermal evolution of the shell correction energy is investigated for deformed nuclei using Strutinsky prescription in a self-consistent relativistic mean-field framework. For temperature independent single-particle states corresponding to either spherical or deformed nuclear shapes, the shell correction energy steadily washes out with temperature. However, for states pertaining to the self-consistent thermally evolving shapes of deformed nuclei, the dual role played by the single-particle occupancies in diluting the fluctuation effects from the single-particle spectra and in driving the system towards a smaller deformation is crucial in determining at moderate temperatures. In rare earth nuclei, it is found that builds up strongly around the shape transition temperature; for lighter deformed nuclei like and , this is relatively less prominent.
引用
@article{arxiv.nucl-th/0104075,
title = {Temperature induced shell effects in deformed nuclei},
author = {B. K. Agrawal and Tapas Sil and S. K. Samaddar and J. N. De},
journal= {arXiv preprint arXiv:nucl-th/0104075},
year = {2009}
}
备注
6 pages revtex file + 4 ps files for figures, Phys. Rev. C (in press)