第24个太阳活动周期极小期乌克兰上空地球空间动力和热过程参数时空变化模型(2009,2019)

Pub Date : 2023-03-14 DOI:10.15407/knit2023.01.015
V. V. Kolodyazhny, M. Lyashenko, L. Emelyanov, D. Dzyubanov
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引用次数: 0

摘要

根据哈尔科夫非相干散射雷达,我们对太阳活动第24个周期最小阶段电离层等离子体中动力学和热过程参数的时空变化进行了建模。构建了210至450公里高度电离层等离子体过程参数的日相关性,用于典型的地球物理周期(春分和秋分、夏至和冬至)。本文分析了电离层动力学和热过程参数的空间和时间变化。我们确定了由于双极性扩散引起的等离子体转移速度的值、全等离子体通量的密度和由于双极性散射引起的带电粒子的通量、提供给电子气的能量的值、电子从等离子体层转移到电离层的热通量的密度,以及等效中性风的速度,以及中性风速的经向分量。我们发现,在研究的大部分时间里,空间天气的微弱变化不会导致电离层动力学和热过程参数的时空变化发生显著变化。大多数这些参数的定量和定性特征及其日变化是所考虑季节的典型特征。相反,即使地磁活动微弱增加,等效中性风的速度也会发生显著变化(高达2-2.5倍)。这种变化的原因可能是水平热层风的增强以及在春分期间纬向磁层电场穿透中纬度。所获得的计算结果可用于日地关系和地球空间的基础研究,用于解决与预测空间天气状况有关的应用问题,以及用于进一步开发区域电离层模型CERIM IION。研究对象:电离层等离子体中的物理过程。研究主题:利用非相干散射雷达获得的电离层等离子体主要参数的时空相关性。研究方法——无线电波非相干散射的地面无线电物理方法、观测结果的统计分析、动力学和热过程参数的半经验建模。
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MODELING OF SPATIAL-TEMPORAL VARIATIONS OF DYNAMIC AND THERMAL PROCESS PARAMETERS IN GEOSPACE OVER UKRAINE DURING THE MINIMUM OF 24-TH CYCLE OF SOLAR ACTIVITY (2009, 2019)
We have performed the modelling of spatiotemporal variations of parameters of dynamic and thermal processes in ionospheric plasma at the phases of the minimum of the 24-th cycle of solar activity according to the Kharkiv radar of incoherent scattering. The diurnal dependences of parameters of the processes in the ionospheric plasma at altitudes from 210 to 450 km are constructed for typical geophysical periods (vernal and autumn equinoxes, summer and winter solstices). In the paper, the analysis of spatial and temporal variations of parameters of dynamic and thermal processes in the ionosphere is presented. We determined the value of the plasma transfer velocity due to ambipolar diffusion, the density of the full plasma flux, and the flux of charged particles due to ambipolar diffusion, the value of the energy supplied to the electron gas, the density of the heat flux transferred by electrons from the plasmasphere to the ionosphere, as well as the velocity of the equivalent neutral wind, and the meridional component of the neutral wind velocity. We found that weak variations in space weather do not lead to significant changes in spatiotemporal variations of the parameters of dynamic and thermal processes in the ionosphere for most of the studied periods. Quantitative and qualitative characteristics of most of these parameters and their diurnal variations were typical for the considered seasons. On the contrary, the velocity of the equivalent neutral wind changed significantly (up to 2—2.5 times) even with a weak increase in geomagnetic activity. The reasons for such changes may be the strengthening of horizontal thermospheric winds and the penetration of zonal magnetospheric electric fields into midlatitudes during the equinoxes. The obtained results of calculations can be used in basic studies of solar-terrestrial relations and geospace, for the solution of applied problems related to the ability to predict the state of space weather, as well as for further development of the regional ionosphere model CERIM IION. The object of research: physical processes in the ionospheric plasma. The subject of research: spatiotemporal dependences of the main parameters of ionospheric plasma, which were obtained using incoherent scattering radar. Research methods — terrestrial radiophysical method of incoherent scatter of radio waves, statistical analysis of observation results, semi-empirical modelling of parameters of dynamic and thermal processes.
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