Isospin effect in the statistical sequential decay
Abstract
Isospin effect of the statistical emission fragments from the equilibrated source is investigated in the frame of statistical binary decay implemented into GEMINI code, isoscaling behavior is observed and the dependences of isoscaling parameters and on emission fragment size, source size, source isospin asymmetry and excitation energies are studied. Results show that and neither depends on light fragment size nor on source size. A good linear dependence of and on the inverse of temperature is manifested and the relationship of and from different isospin asymmetry sources are satisfied. The symmetry energy coefficient extracted from simulation results is 23 MeV which includes both the volume and surface term contributions, of which the surface effect seems to play a significant role in the symmetry energy.
Cite
@article{arxiv.nucl-th/0702052,
title = {Isospin effect in the statistical sequential decay},
author = {W. D. Tian and Y. G. Ma and X. Z. Cai and D. Q. Fang and W. Guo and W. Q. Shen and K. Wang and H. W. Wang and M. Veseslky},
journal= {arXiv preprint arXiv:nucl-th/0702052},
year = {2008}
}
Comments
8 pages, 8 figures; A new substantially modified version which has been accepted by the Physical Review C