Variation of Low-Frequency Time-Code Signal Field Strength during the Annular Solar Eclipse on 21 June 2020: Observation and Analysis

Wang, Xin; Li, Bo; Zhao, Fan; Luo, Xinyu; Huang, Luxi; Feng, Ping; Li, Xiaohui

doi:10.3390/s21041216

Cited by 7 publications

References 22 publications

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Some Features of the Ionospheric Radio Wave Characteristics Over China Observed During the Solar Eclipse of 21 June 2020

et al. 2022

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Solar eclipses give rise to a number of nonstationary processes in the Earth-atmosphere-ionosphere-magnetosphere system (Chernogor, 2013) when the parameters of all components of this system and their geophysical fields change. The electron density and electron and ion temperatures show a decrease, whereas the plasma transport and energetic particle precipitation from the magnetosphere are activated, and plasma instabilities and wave processes of different nature are generated in the atmosphere (see Chernogor, 2013).During the course of solar eclipses, the parameters of radio channels through the atmosphere and ionosphere are subjected to considerable changes practically in all frequency bands, which inevitably cause degradation of signals, especially of those in the VLF, LF, MF, and HF bands.Hundreds of scientific papers are concerned with the ionospheric disturbances that accompany solar eclipses.

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Some Features of the Ionospheric Radio Wave Characteristics Over China Observed During the Solar Eclipse of 21 June 2020

et al. 2022

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Impact of the annular solar eclipse on June 21, 2020 on BPL time service performance

et al. 2021

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BPL is a special Chinese long-wave time service system constructed and maintained by the National Time Service Center of the Chinese Academy of Sciences. Two experimental paths were designed to analyze the impact of the annular solar eclipse that occurred on June 21, 2020, on the BPL time service performance. In the first path, the receiving point was located in the ring eclipse zone, whereas in the other path, the sky-wave reflection point was located in the ring eclipse zone. The time of arrival (TOA) data during 19–23 June 2020 at the Sanya test point (sky-wave reflection point located in the ring eclipse zone) and field strength from 21 to 22 June 2020 at the Xiamen test point (receiving point located in the ring eclipse zone) were measured and analyzed. The experimental results show that under normal conditions of BPL time service signal transmission, the TOA and field strength undergo significant changes during the annular solar eclipse, the TOA data change up to 5.17 µs, and the field strength data change up to 17.72 dBμV. The data tend to increase initially and then decrease. This change is consistent with the ionospheric change caused by the annular solar eclipse. The BPL time service performance is affected at the receiving points located in the south of the BPL time service station with the great circle distance ranging from 1426 to 1844 km.

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Research on Processing Method of Low-frequency Time-code 1PPS Based on Kalman Filter

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Liu

et al. 2022

2022 IEEE 2nd International Conference on Electronic Technology, Communication and Information (ICETCI)

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Variation of Low-Frequency Time-Code Signal Field Strength during the Annular Solar Eclipse on 21 June 2020: Observation and Analysis

Cited by 7 publications

References 22 publications

Some Features of the Ionospheric Radio Wave Characteristics Over China Observed During the Solar Eclipse of 21 June 2020

Some Features of the Ionospheric Radio Wave Characteristics Over China Observed During the Solar Eclipse of 21 June 2020

Impact of the annular solar eclipse on June 21, 2020 on BPL time service performance

Research on Processing Method of Low-frequency Time-code 1PPS Based on Kalman Filter

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