# Evaporation Channel as a Tool to Study Fission Dynamics

**Authors:** A. Di Nitto, E. Vardaci, G. La Rana, P.N. Nadtochy, G. Prete

arXiv: 1704.01756 · 2018-03-14

## TL;DR

This paper investigates how evaporation channels can reveal details of fission dynamics by comparing experimental data with model simulations, highlighting the benefits of dynamical models over statistical ones.

## Contribution

It demonstrates the effectiveness of using evaporation residue observables and dynamical models to better understand fission processes in intermediate fissility systems.

## Key findings

- Dynamical models significantly improve data description over statistical models.
- Large angular coverage enhances the accuracy of evaporation channel measurements.
- New detection devices can measure more sensitive observables for fission studies.

## Abstract

The dynamics of the fission process is expected to affect the evaporation residue cross section because of the fission hindrance due to the nuclear viscosity. Systems of intermediate fissility constitute a suitable environment for testing such hypothesis, since they are characterized by evaporation residue cross sections comparable or larger than the fission ones. Observables related to emitted charged particle, due to their relatively high emission probability, can be used to put stringent constraints on models describing the excited nucleus decay and to recognize the effects of fission dynamics. In this work model simulations are compared with the experimental data collected via the ^{32}S + ^{100}Mo reaction at E_{lab}= 200 MeV. By comparing an extended set of evaporation channel observables the limits of the statistical model and the large improvement coming by using a dynamical model are evidenced. The importance of using a large angular covering apparatus to extract the observable is stressed. The opportunity to measure more sensitive observables by a new detection device in operation at LNL are also discussed.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1704.01756/full.md

## References

35 references — full list in the complete paper: https://tomesphere.com/paper/1704.01756/full.md

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Source: https://tomesphere.com/paper/1704.01756