Level density within a micro-macroscopic approach
Abstract
Statistical level density is derived for nucleonic system with a given energy , particle number and other integrals of motion in the micro-macroscopic approximation beyond the standard saddle-point method of the Fermi gas model. This level density reaches the two limits; the well-known Fermi gas grand-canonical ensemble limit for a large entropy related to large excitation energies, and the finite micro-canonical limit for a small combinatorical entropy at low excitation energies. The inverse level density parameter as function of the particle number in the semiclassical periodic orbit theory, taking into account the extended Thomas-Fermi and Strutinsky shell corrections, is calculated and compared with experimental data.
Cite
@article{arxiv.2006.03868,
title = {Level density within a micro-macroscopic approach},
author = {A. G. Magner and A. I. Sanzhur and S. N. Fedotkin and A. I. Levon and S. Shlomo},
journal= {arXiv preprint arXiv:2006.03868},
year = {2022}
}
Comments
13 pages, 3 figures