Residue Coulomb interaction among isobars and its influence in symmetry energy of neutron-rich fragment

Abstract

The residue Coulomb interaction (RCI), which affects the results of symmetry energy of neutron-rich nucleus in isobaric yield ratio (IYR) methods, is difficult to be determined. Four RCI approximations are investigated: (1) the M1--RCI adopting the ac/T (the ratio of Coulomb energy coefficient to temperature) determined from the IYR of mirror-nuclei fragment; (2) the M2--RCI by fitting the difference between IYRs; (3) the M3--RCI by adopting the standard Coulomb energy at a temperature T=2MeV; and (4) neglecting the RCI among the three isobars. The M1--, M2-- and M3--RCI is found to no larger than 0.4. In particular, the M2--RCI is very close to zero. The effects of RCI in the asym/T of fragment are also studied. The M1-- and M4--asym/T are found to be the lower and upper limitations of asym/T, respectively. The M2--asym/T overlaps the M4--asym/T, which indicates that the M2--RCI is negligible, at the same time the RCI among the three isobars can be neglected. A relative consistent low values of M3--asym/T (7.52.5) are found in very neutron-rich isobars.