KEYWORDS
Resonant nuclear reactions, exa-energetic nuclear reactions, endo-energetic nuclear reactions, Coulomb barrier, nuclear effective cross section.
INTRODUCTION
As is known, nuclear reactions formed under the influence of bombardment of charged particles with various kinetic energies have been theoretically and experimentally studied in nuclear physics and elementary particle physics [1—6, 8—9]. But in these studies, the processes themselves are studied separately. In these works, the process of bombarding target nuclei with low-energy and high—energy charged particles on various types of accelerators – from linear accelerators and cyclotrons to synchrophasotrons – has been studied. In the research works carried out, the main attention is focused on the experimental aspect of the study, and the theoretical analysis has not been carried out sufficiently. Therefore, conducting research on nuclear reactions of bombardment of charged particles with different kinetic energies with the conclusion of their effectiveness is relevant.
It is important to note that until now there has not been a single comprehensive model for the analysis of nuclear reactions, which also made it possible to determine a new type of nuclear reactions – resonant nuclear reactions, except for the existing classical exo-energy and endo-energy type reactions, thermonuclear reactions and decay reactions. Hence the need to mathematically determine the resonant state of nuclear reactions on a type of accelerators with high monochromaticity.
MATERIALS AND METHODS
To study the above processes, various theoretical approaches to the analysis and solution of multidimensional physical and mathematical expressions have been selected. The objects of the study were nuclear reactions taking place after bombardment by charged particles of target nuclei with high and low kinetic energies in a classical form, in a resonant state.
RESEARCH
First, we can consider some types of nuclear reactions: reactions with one nucleus and a directed particle, or with two directed particles. Each of these reactions, in turn, is divided into exa-energetic, that is, reactions with a positive reaction yield and endo-energetic, that is, with a negative reaction yield. There are also decay reactions for heavy nuclei. It is also worth agreeing that each of these reactions is considered on the scale of atomic nuclei, since for smaller elementary particles or larger atomic and molecular measures, other special types of reactions take place with lines of interaction between each of the reaction components.