AR19676689 Dynamic and electrodynamic properties of plasma in an extreme state
Objective of the project:
The goal of this project is to study the dynamic and electrodynamic properties of plasma under extreme conditions such as high temperatures, high densities and strong magnetic fields. The main goal is to understand the behavior of plasma under such conditions and identify its features that can be key for a variety of applications, including nuclear physics, astrophysics, nuclear fusion, as well as to develop new technologies and methods for controlling plasma in extreme conditions.
Relevance of the project:
The relevance of the project aimed at studying the dynamic and electrodynamic properties of plasma under extreme conditions is confirmed by the following factors: Understanding the dynamic and electrodynamic processes under extreme conditions is necessary to develop methods for controlling plasma in nuclear reactors and to achieve the conditions necessary for thermonuclear fusion, which can become a source clean and safe energy in the future. In extreme space conditions, such as solar wind, plasma jets and magnetic storms, plasma exhibits dynamic and electrodynamic behavior. Studying these phenomena is important for understanding the impact on the space environment and various space technologies. Plasma technologies are used in a variety of fields, including industrial processes, medicine and electronics. Understanding the dynamic and electrodynamic properties of plasma under extreme conditions helps improve the efficiency and reliability of such processes. In general, the study of the dynamic and electrodynamic properties of plasma under extreme conditions is of strategic importance both for fundamental research and for practical application in various fields of science and technology.
Scientific supervisor: Dzhumagulova K.N.
Results obtained: project start – 2023.
Implementation period: 2023-2025.