Equilibrium and pre-equilibrium processes in the 55Mn(6Li,xp) and 57Fe(a,xp) reactions

TL;DR

This study compares equilibrium and pre-equilibrium particle emissions in two nuclear reactions involving 55Mn and 57Fe, revealing differences in reaction mechanisms and angular distributions at specific energies and angles.

Contribution

It provides new insights into the reaction mechanisms by analyzing spectra and angular distributions, highlighting the presence of pre-equilibrium emission in one reaction and characterizing level density parameters.

Findings

Backward-angle spectra from 6Li+55Mn are due to compound nucleus emission.

Pre-equilibrium emission is significant in a+57Fe reactions at all angles.

Pre-equilibrium component shows a steeper forward peak and unusual rise above 120°.

Abstract

Spectra of outgoing neutrons and protons from the 6Li+55Mn reaction and protons from the a+57Fe reaction have been measured with beams of 15 MeV 6Li ions and 30 MeV alpha-particles. These reactions proceed through the same 61Ni nucleus at the same excitation energy, thus allowing the difference in reaction mechanism to be studied. It is shown that spectra from the first reaction measured at backward angles are due to emission from a traditional compound nucleus reaction, in which the intermediate nucleus has reached statistical equilibrium; the spectra from the second reaction contain a significant fraction of pre-equilibrium emission at all angles. Level density pa- rameters of the residual nucleus 60Co have been obtained from the first reaction. Both emission spectra and angular distributions have been measured for the second reaction. It was found that the pre-equilibrium component exhibits a forward-peaked angular distribution, as expected, but with a steeper slope than predicted and with an unusual slight rise at angles above 120\deg. The backward- angle rise is explained qualitatively by the dominance of the multi-step compound mechanism at backward angles.