Inelastic and thermodynamic processes in dense plasma

Studying a source in a dense plasma reveals an increase and shift in spectral lines due to shielding of the charge field. As the probability of plasma appearing to disappear increases, a sharp increase in electrical conductivity occurs, known as the Mott transition. The correction to the ionization potential depends on the screening result. In this work, the Schrödinger equations for atomic particles of potential interaction [1] of dense plasma particles are solved, taking into account the effect of quantum nonlocality, as well as electronic correlation. The calculated powers are also revealed by the wave functions of the atomic storage device. The results obtained are in good agreement with the results of other authors. In addition, the excitability of the atomic-electron impact is measured using this data.

*The authors express their gratitude to the Science Committee of the Ministry of Science and Higher Education of the Republic of Kazakhstan under grant No. AP19679049.