# Experimental set-up for the simultaneous measurement of fission and   gamma-emission probabilities induced by transfer or inelastic-scattering   reactions

**Authors:** R. P\'erez S\'anchez, B. Jurado, P. Marini, M. Aiche, S. Czajkowski,, D. Denis-Petit, Q. Ducasse, L. Mathieu, I. Tsekhanovich, A. Henriques, V., M\'eot, O. Roig

arXiv: 1901.04874 · 2019-05-22

## TL;DR

This paper presents an experimental setup enabling simultaneous measurement of fission and gamma-emission probabilities in reactions involving light projectiles, addressing background challenges to improve nuclear de-excitation modeling.

## Contribution

The authors developed a novel experimental setup that allows for concurrent measurement of fission and gamma emissions, including background subtraction techniques, enhancing data accuracy.

## Key findings

- Successful demonstration of the setup with background subtraction.
- Ability to measure probabilities at excitation energies with open fission channels.
- Setup complies with experimental constraints for accurate measurements.

## Abstract

Fission and gamma-emission probabilities induced by transfer or inelastic scattering reactions with light projectile nuclei are very valuable quantities for constraining the models that describe the de-excitation of heavy nuclei. We have developed an experimental set-up that allows us to simultaneously measure fission and gamma-emission probabilities. The measurement of the gamma-emission probability at excitation energies where the fission channel is open is challenging due to the intense background of gamma rays emitted by the fission fragments. We discuss the procedure to subtract such a background and the constraints that this subtraction and other experimental conditions put on the set up. We show that our set-up complies with these constraints.

---
Source: https://tomesphere.com/paper/1901.04874