Abstract
Purpose: Solar eclipses pertain to high-energy sources of disturbance in the subsystems of the Sun–interplanetary-medium–magnetosphere–ionosphere–atmosphere–Earth and the Earth–atmosphere–ionosphere–magnetosphere systems. During the solar eclipse, the coupling between the subsystems in these systems activates, and the parameters of the dynamic processes become disturbed. Investigation of these processes contributes to understanding of the structure and dynamics of the subsystems. The ionospheric response to the solar eclipse depends on the season, local time, magnitude of the solar eclipse, phase of the solar cycle, the observation site, the state of space weather, etc. Therefore, the study of the effects, which each new solar eclipse has on the ionosphere remains an urgent geophysics and radio physics problem. The purpose of this paper is to describe the radio wave characteristics and ionospheric parameters, which accompanied the partial solar eclipse of 10 June 2021 over the City of Kharkiv. Design/methodology/approach: To make observations, the means of the HF Doppler measurements at vertical and oblique incidence available at the V. N. Karazin Kharkiv National University Radiophysical Observatory were employed. The data obtained at the “Lviv” Magnetic Observatory were used for making intercomparison. Findings: The radiophysical observations have been made of the dynamic processes acting in the ionosphere during the solar eclipse of 10 June 2021 and on the reference days. The temporal variations in the Doppler frequency shift observed at vertical and oblique radio paths have been found to be, as a whole, similar. Generally speaking, the Doppler spectra over these radio propagation paths were different. Over the oblique radio paths, the number of rays was greater. The solar eclipse was accompanied by wave activity enhancement in the atmosphere and ionosphere. At least three wave trains were observed. The values of the periods (about 5–12 min) and the relative amplitudes of perturbations in the electron density (δN≈0.3–0.6 %) give evidence that the wave disturbances were caused by atmospheric gravity waves. The amplitude of the 6–8-min period geomagnetic variations has been estimated to be 0.5–1 nT. Approximately the same value has been recorded in the X component of the geomagnetic field at the nearest Magnetic Observatory. The aperiodic effect of the solar eclipse has appeared to be too small (less than 0.01 Hz) to be observed confidently. The smallness of the effect was predetermined by an insignificant magnitude of the partial eclipse over the City of Kharkiv (no more than 0.11). Conclusions: The features of the solar eclipse of 10 June 2021 include an insignificant magnitude of the aperiodic effect and an enhancement in wave activity in the atmosphere and ionosphere. Key words: solar eclipse; ionosphere; Doppler spectrum; Doppler frequency shift; electron density; geomagnetic field; atmospheric gravity wave
Highlights
Çàñîáè òà ìåòîäèРадар вертикального доплерівського зондування використовувався для реєстрації іоносферних збурень, викликаних СЗ.
При такому потенціалі радара відношення сигнал/завада для звичайної хвилі в нічний час може досягати 105 106.
Цей радар похилого зондування іоносфери детальніше описано в роботі [43].
Summary
Радар вертикального доплерівського зондування використовувався для реєстрації іоносферних збурень, викликаних СЗ. При такому потенціалі радара відношення сигнал/завада для звичайної хвилі в нічний час може досягати 105 106. Цей радар похилого зондування іоносфери детальніше описано в роботі [43]. Д. Як зондувальні сигнали у цій роботі використовувались радіосигнали радара вертикального доплерівського зондування. Отримані оцінки N min , vmin і zmin свідчать про високу чутливість метода доплерівського зондування. Спектральний аналіз даних вертикального доплерівського зондування здійснювався за допомогою перетворення Фур’є на інтервалі часу 100 с, а даних похилого зондування – за допомогою авторегресійного аналізу з роздільною здатністю t 10 с. Затемнення почалося о 10:42 UT (13:42 LT, LT – місцевий час), а закінчилося о 12:12 UT (15:12 LT).
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