Article
Plasma Investigations
2000. V. 38. № 6. P. 821–828
Zaika E.V., Mulenko I.A., Khomkin A.L.
The electrical conductivity of a fully ionized magnetic plasma with screened interaction between charges
The method of solving the kinetic Boltzmann equation is used to calculate the electrical conductivity of a fully ionized plasma with screened interaction between charges, located in a time-constant external magnetic field. The dependence of the longitudinal, transverse, and Hall conductivity on the nonideality parameter $\Gamma$ of the plasma and on the parameter $\omega_e\tau_0$ is established. It is demonstrated that the maximum (modulo) value of the Hall components of plasma conductivity shifts towards lower values of the intensity $H$ of external magnetic field as the nonideality parameter $\Gamma$ increases.
Article reference:
Zaika E.V., Mulenko I.A., Khomkin A.L. The electrical conductivity of a fully ionized magnetic plasma with screened interaction between charges, High Temp., 2000. V. 38. № 6. P. 821
Zaika E.V., Mulenko I.A., Khomkin A.L. The electrical conductivity of a fully ionized magnetic plasma with screened interaction between charges, High Temp., 2000. V. 38. № 6. P. 821