Modeling of plasma propagation in Solar like an electrical circuit in plasma devices
DOI:
https://doi.org/10.26577/phst.2022.v9.i1.03Abstract
In presented work, the conceptual model approach is proposed on the basis of the analysis of theoretical models of the formation of solar flares, which is based on the flow of a solar flare with processes in the electric circuit. One of the closest to the series parameters of solar flares is the evolution of plasma objects in the “Plasma Focus” setup. The regularities have been revealed on the basis of the physically substantiated similarity of the processes occurring in the plasma focus and in the solar flare, which allow to trace the change of the plasma temperature in dependence of the change of the installation’s operational parameters. In summary, the parameters of the model were obtained in correspondence of the maximum approximation to real conditions. The calculations and analysis of the temperature in dependence of the setup parameters, such as the mass of gas and the speed of incident particles, the load resistance in the plasma focus, are presented using the C ++ programming language. It is proved, that the physical model of the solar flare "Electric circuit" can be realized on the existing material base of the plasma focus installation, taking into account the scaling of the flare process.