# Empirical Evidence of Isospin Memory in Compound Nuclear Fission

**Authors:** Swati Garg, Ashok Kumar Jain

arXiv: 1902.09319 · 2019-02-26

## TL;DR

This paper provides empirical evidence that compound nuclei retain isospin memory during fission, influencing cross-sections and widths, and suggests a transition to non-compound processes at higher energies.

## Contribution

It demonstrates isospin dependence in fission data across multiple reaction pairs, supporting the idea that compound nuclei remember their isospin at formation, with implications for nuclear reaction models.

## Key findings

- Isospin influences fission branching ratios.
- Evidence supports isospin memory in compound nuclei.
- Transition to non-compound processes observed at higher energies.

## Abstract

We present empirical evidence of isospin dependence in the compound nuclear fission cross-sections and fission widths, which suggests that the compound nucleus (CN) possibly retains the memory of the isospin when it is formed. We examine the idea, first proposed by Yadrovsky [1], for three pairs of reactions where experimental data of fission cross section at various excitation energies are available. One of the pairs of reactions is the same as used by Yadrovsky i.e. $^{209}$Bi($p$, f) and $^{206}$Pb($\alpha$, f) leading to the CN $^{210}$Po but with an improved experimental data set. The other two pairs of reaction sets are, $^{185}$Re($p$, f) and $^{182}$W($\alpha$, f) leading to the CN $^{186}$Os and, $^{205}$Tl($p$, f) and $^{202}$Hg($\alpha$, f) leading to the CN $^{206}$Pb. An observable difference between the fission branching ratios in two different isospin states suggests that the CN seems to remember its isospin at the point of formation. This possibility is further supported by another method, where additional empirical evidence for four CN, viz. $^{210}$Po, $^{209}$Bi, $^{207}$Bi, and $^{198}$Hg, is obtained from the experimental data in Zhukova et al. [2]. Further, the data also suggest a possible new signature of the weakening of CN process and gradual transition to non-compound processes as the energy rises. Fresh experimental efforts as proposed, are required to confirm these findings.

## Full text

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## Figures

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## References

28 references — full list in the complete paper: https://tomesphere.com/paper/1902.09319/full.md

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Source: https://tomesphere.com/paper/1902.09319