Thick-target yields of radioactive targets deduced from inverse kinematics

TL;DR

This paper introduces a theoretical method to deduce thick-target yields of radioactive targets from inverse kinematics, validated through experiments with stable and radioactive systems, enhancing nuclear reaction analysis techniques.

Contribution

A novel conversion method from inverse kinematics to evaluate thick-target yields of radioactive targets, demonstrated with copper and cesium reactions.

Findings

Method successfully applied to natCu(12C,X)24Na reaction.

Extended to 137Cs + 12C radioactive system.

Provided a conversion coefficient for TTY measurement.

Abstract

The thick-target yield (TTY) is a macroscopic quantity reflected by nuclear reactions and matter properties of targets. In order to evaluate TTYs on radioactive targets, we suggest a conversion method from inverse kinematics corresponding to the reaction of radioactive beams on stable targets. The method to deduce the TTY is theoretically derived from inverse kinematics. We apply the method to the natCu(12C,X)24Na reaction to confirm availability. In addition, it is applied to the 137Cs + 12C reaction as an example of a radioactive system and discussed a conversion coefficient of a TTY measurement.