THE CRITICAL FREQUENCY OF THE IONOSPHERIC F2-LAYER AS OBTAINED FROM IONOSONDE DATA AND OBSERVATIONS OF SOLAR RADIO BURSTS

Q4 Physics and Astronomy

Radio Physics and Radio Astronomy Pub Date : 2022-01-01 DOI:10.15407/rpra27.03.203

L. Stanislavsky, I. Bubnov, S. Yerin, A. Zalizovski, V. Lisachenko

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Abstract

Subject and Purpose. Studying the time variations shown by the critical frequencies of the ionospheric F2 layer through comparative analysis of ionosonde data and observations of type III solar radio bursts. Methods and Methodology. In this work, two independent methods have been used for identifying critical frequencies in the ionosphere, namely that of vertical sounding and observations of type III solar radio bursts near their cut-off frequency in the ionosphere. One of the ionosondes used for vertical sounding was located near Zmiiv (Kharkiv Region), rather close to the UTR-2 radio astronomy observatory where the solar bursts were observed. The radiation from such bursts represented probe signals for transmissive sounding. The solar radiation was received with an element of a low-frequency (1 to 40 MHz) antenna array. Results. On May 22, 2021 variations in the critical frequency f0F2 of the ionospheric F2-layer were followed between 07:00 and 17:00 UT. The value reached a maximum of 5.9 MHz at 07:45 to 08:00 UT and then decreased smoothlyto 4.9 MHz, stayіng there from 15:30 till 16:45 UT. At that time, a storm of type III solar bursts was recorded with the antenna for radio observations at 1…40 MHz, revealing a cut-off effect for the bursts. As has been found,their cut-off frequency can be used for estimating the critical frequency f0F2 in the ionosphere. Conclusions. The comparative analysis of solar burst observations and frequency-and-time measurements with an ionosonde has shown possibilities for evaluating the critical frequency f0F2 in the ionosphere from the data on the cut-off frequency for solar radio-frequ

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电离层2层的临界频率是由电离层探空数据和太阳射电暴观测得到的

主题和目的。通过对电离层探测数据和III型太阳射电暴观测数据的对比分析，研究电离层F2层临界频率的时间变化。方法和方法论。在这项工作中，使用了两种独立的方法来确定电离层中的临界频率，即垂直探测和在电离层中接近其截止频率的III型太阳射电暴的观测。其中一个用于垂直探测的电离层探空仪位于Zmiiv(哈尔科夫地区)附近，非常靠近观测太阳爆发的UTR-2射电天文台。这种爆炸产生的辐射代表了发射探测的探测信号。使用低频(1至40兆赫)天线阵列接收太阳辐射。结果。在2021年5月22日07:00 - 17:00 UT期间，跟踪了电离层f2层临界频率f0F2的变化。该值在07:45 - 08:00 UT达到最大值5.9 MHz，然后平稳下降到4.9 MHz，从15:30到16:45 UT保持在那里。当时，射电观测天线在1.40兆赫记录了一次III型太阳爆发风暴，显示了爆发的截止效应。已经发现，它们的截止频率可以用来估计电离层的临界频率f0F2。结论。对太阳爆发观测和电离层探空仪频率和时间测量的比较分析表明，根据太阳无线电频率的截止频率数据，有可能评估电离层中的临界频率f0F2

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