Развитие поляризационного джета и дрейфы плазмы в области F ионосферы

We consider Doppler measurements at the Yakutsk subauroral ionospheric station in the periods of the formation and development of a polarization jet above the observation station. It is shown that the times at which the vertical and horizontal velocities of the plasma drift reach their maximum values may not coincide. Comparison of ground-based measurements when observing a polarization jet and calculation of the model of a high-latitude ionosphere demonstrate that the presence of mismatched peaks of the vertical and horizontal components of the plasma drift velocity at the altitudes of the F₂layer leads to different variations in the basic parameters of the layer. It was found that in some cases, before the formation of a polarization jet, an increase in the critical frequency of the F₂ layer is observed. A decrease in the ion recombination rate due to an increase in the height of the layer maximum and, consequently, accumulation of ions at these altitudes, is a possible explanation for this behavior. Such an increase in the critical frequency of the F₂ layer may be an additional sign of the development of a polarization jet above the observation station.