Iranian Journal of Science and Technology, Transactions A: Science | 2019
Updating Conductivity Tensor of Cold and Warm Plasma for Equatorial Ionosphere F2-Region in The Northern Hemisphere
Abstract
We compared the conductivity tensor becoming important parameter of ionospheric plasma using the real geometry of Earth’s magnetic field in the Northern hemisphere for both cold and warm ionospheric plasma for equinox days. It could be that the conductivity tensor certainly depends on the vector of wave propagation (k) and the adiabatic sound speed (Ue) in warm ionospheric plasma and it is possible to say that the adiabatic sound speed for electron generally decreases the magnitudes of conductivity tensor components with respect to the cold ionosphere plasma except for $$\\sigma_{{ 2 3 {\\text{R}}}}^{\\prime }$$σ23R′(Ue\xa0≠\xa00)\xa0=\xa0$$\\sigma_{{ 2 3 {\\text{R}}}}$$σ23R(Ue\xa0=\xa00), $$\\sigma_{{ 3 3 {\\text{R}}}}^{\\prime }$$σ33R′(Ue\xa0≠\xa00)\xa0=\xa0$$\\sigma_{{ 3 3 {\\text{R}}}}$$σ33R(Ue\xa0=\xa00), $$\\sigma_{{ 1 3 {\\text{S}}}}^{\\prime }$$σ13S′(Ue\xa0≠\xa00)\xa0=\xa0$$\\sigma_{{ 1 3 {\\text{S}}}}$$σ13S(Ue\xa0=\xa00) and $$\\sigma_{{ 3 3 {\\text{S}}}}^{\\prime }$$σ33S′(Ue\xa0≠\xa00)\xa0=\xa0$$\\sigma_{{ 3 3 {\\text{S}}}}$$σ33S(Ue\xa0=\xa00). In this sense, the resistivity and reactance increase in ionospheric plasma. In this context, according to the accepted conditions, the change of conductivity with local time is similar to change of electron density with local time for both (cold and warm) conditions in ionospheric plasma as trend.