# Experimental probe on the production of $^{97}$Ru from   $^{7}$Li+$^{93}$Nb reaction: A study on the precompound emissions

**Authors:** Deepak Kumar, Moumita Maiti, Susanta Lahiri

arXiv: 1704.08811 · 2017-05-01

## TL;DR

This study investigates the reaction mechanisms in the $^{7}$Li + $^{93}$Nb reaction at low energies, revealing the significant role of preequilibrium emissions and breakup fusion processes through experimental cross-section measurements and model comparisons.

## Contribution

It provides experimental data and analysis on precompound emissions and breakup fusion in weakly bound heavy-ion reactions at low energies, enhancing understanding of reaction mechanisms.

## Key findings

- Good agreement between measured and modeled excitation functions.
- Significant preequilibrium neutron emission observed.
- Evidence of incomplete or breakup fusion processes.

## Abstract

Background: Interaction of weakly bound heavy-ions with an intermediate or heavy target is not yet understood completely due to the scarcity of experimental data. In order to develop a clear understanding of breakup fusion or preequilibrium emission even at low energy range, 3--10 MeV/nucleon, more experimental investigations are necessary. Purpose: Study of reaction mechanisms involved in the weakly bound heavy-ion induced reaction, $^7$Li + $^{93}$Nb, at low energies by measuring the production cross sections of the residual radionuclides. Method: Natural niobium ($^{93}$Nb) foil, backed by aluminium (Al) catcher, arranged in a stack was bombarded by $^{7}$Li ions of 20-45 MeV energy. Activity of the residues produced in each $^{93}$Nb target was measured by off-line $\gamma$-ray spectrometry after the end of bombardment (EOB) and cross sections were calculated. Experimental cross sections were compared with those computed using compound and precompound models. Results: In general, measured excitation functions of all residues produced in $^{7}$Li + $^{93}$Nb reaction showed good agreement with the model calculations based on Hauser-Feshbach formalism and exciton model for compound and precompound processes, respectively. Significant preequilibrium emission of neutrons was observed at the relatively high energy tail of the excitation function of $^{97}$Ru. Conclusions: Preequilibrium process played an important role for the enhancement of cross-section in $xn$ reaction channel over the compound reaction mechanism at higher energies for $^{7}$Li + $^{93}$Nb reaction. Additionally, indirect evidence of incomplete or breakup fusion was also perceived.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1704.08811/full.md

## References

46 references — full list in the complete paper: https://tomesphere.com/paper/1704.08811/full.md

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Source: https://tomesphere.com/paper/1704.08811