CHARACTERISTIC FEATURES OF VARIATIONS IN HF RADIO WAVE PARAMETERS IN THE IONOSPHERE DURING THE COURSE OF THE SOLAR ECLIPSE OF JUNE 21, 2020 OVER THE PEOPLE’S REPUBLIC OF CHINA

Q4 Physics and Astronomy

Radio Physics and Radio Astronomy Pub Date : 2022-01-01 DOI:10.15407/rpra27.04.249

L. Chernogor, K. Garmash, Q. Guo, Y. Luo, V. Rozumenko, Y. Zheng

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Abstract

Subject and Purpose.The study of the effect that each new Solar eclipse (SE) has on radio wave characteristics is an actual scientific and technical issue. The purpose of the present work is to analyze the variations in Doppler spectra (DS), Doppler shift of frequency (DSF), and in the reflected wave amplitude (RWA) that were observed during the SE of June 21, 2020 over the People’s Republic of China. Methods and Methodology.The observations of HF radio wave characteristics were made using the Harbin Engineering University multi-frequency multipath coherent radio system. The temporal variations in DS, DSF of the main ray and RWA are analyzed further. The variations in the Doppler frequency shift (DSF) were subjected to a systematic spectral analysis that involved joint application of the windowed Fourier transform, adaptive Fourier decomposition, and the Morlet mother-function-based wavelet transformation. Results. The SE was accompanied by DS diffuseness resulting from an increase in the number of rays. The DSF temporal variations were observed to be bi-polar and asymmetrical, with extreme DSF magnitudes varying from –11 to –40 mHz and from 22 to 56 mHz. The duration of processes with negative DSF values varied from 50 to 80 min, and the duration of processes with positive DSF changed from 30 to 80 min. The multi-hop propagation (from two to five hops) took place along all propagation paths, with a 360 to 560-km one-hop range. The 4–5-min period quasi-periodic DSF variations showed 20–50 mHz amplitude, and the 8–18-min period variations exhibited 40–100 mHz amplitude. The relative amplitudes of the 4–5 min period quasi-periodic variations in the electron density were observed to be in the 0.3–6.2% range, and the amplitudes of the 8–18 min period variations were found to be in the 1.1–21.7% range. A decrease in the electron density along different propagation paths was observed to vary from –(12–16)% to –(20–26)%.

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2020年6月21日日食期间中华人民共和国上空电离层高频无线电波参数变化特征

主题和目的。研究每一次新日食对无线电波特性的影响是一个实际的科学技术问题。本文的目的是分析2020年6月21日东南风在中国上空观测到的多普勒频谱(DS)、多普勒频移(DSF)和反射波幅(RWA)的变化。方法和方法论。利用哈尔滨工程大学多频多径相干无线电系统对高频无线电波特性进行了观测。进一步分析了主射线DS、DSF和RWA的时间变化。对多普勒频移(DSF)的变化进行了系统的频谱分析，包括联合应用加窗傅立叶变换、自适应傅立叶分解和基于Morlet母函数的小波变换。结果。由于射线数的增加，SE伴随着DS的扩散。DSF的时间变化呈双极性和不对称变化，极端DSF震级在-11 ~ -40 mHz和22 ~ 56 mHz之间变化。DSF值为负的进程持续时间从50到80分钟不等，DSF值为正的进程持续时间从30到80分钟不等。在所有传播路径上都发生了多跳传播(从2到5跳)，单跳范围为360到560公里。4 ~ 5 min准周期DSF变化幅度为20 ~ 50 mHz, 8 ~ 18 min准周期DSF变化幅度为40 ~ 100 mHz。4 ~ 5 min周期准周期变化的相对幅度在0.3 ~ 6.2%之间，8 ~ 18 min周期变化的相对幅度在1.1 ~ 21.7%之间。在不同的传播路径下，电子密度的下降幅度从-(12-16)%到-(20-26)%不等。

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