Отклик ионосферы на солнечное затмение 29 марта 2006 г. по данным наклонного ЛЧМ зондирования
Номер: 11 Год: 2015 Страницы: 53-57
Номер: 11 Год: 2015 Страницы: 53-57
УДК: 550.388.2
EDN: TMCGSR
Автор(ы):
Вертоградов Геннадий Георгиевич1Вертоградова Елена Георгиевна1, email: vgg@bmail.ru
Урядов Валерий Павлович2, email: uryadovvp@nirfi.sci-nnov.ru
Учреждения:
1 - ФГОУ ВПО Южный федеральный университет», 344090, г. Ростов-на-Дону, ул. Зорге, 5
2 - ФГБНУ Научно-исследовательский радиофизический институт
Аннотация:
Представлены результаты эксперимента и модельные расчеты по исследованию отклика ионосферы на солнечное затмение 29 марта 2006 г. по данным наклонного ЛЧМ зондирования на трассах различной протяженности и ориентации.
Ключевые слова: солнечное затмение, ионосфера, ЛЧМ зондирование
Сведения об источниках финансирования: -
1 - ФГОУ ВПО Южный федеральный университет», 344090, г. Ростов-на-Дону, ул. Зорге, 5
2 - ФГБНУ Научно-исследовательский радиофизический институт
Аннотация:
Представлены результаты эксперимента и модельные расчеты по исследованию отклика ионосферы на солнечное затмение 29 марта 2006 г. по данным наклонного ЛЧМ зондирования на трассах различной протяженности и ориентации.
Ключевые слова: солнечное затмение, ионосфера, ЛЧМ зондирование
Сведения об источниках финансирования: -
Вертоградов, Г. Г. Отклик ионосферы на солнечное затмение 29 марта 2006 г. по данным наклонного ЛЧМ зондирования / Г. Г. Вертоградов, Е. Г. Вертоградова, В. П. Урядов // Гелиогеофизические исследования. – 2015. – № 11. – С. 53-57. – EDN TMCGSR.
The response of the ionosphere to the solar eclipse march 29, 2006 based on oblique LFM sounding data
Number: 11 Year: 2015 Pages: 53-57
Number: 11 Year: 2015 Pages: 53-57
Vertogradov Gennady Georgievich1
Vertogradova Elena Georgievna1, email: vgg@bmail.ru
Uryadov Valery Pavlovich2, email: uryadovvp@nirfi.sci-nnov.ru
Institutions:
1 - Federal State Educational Institution of Higher Professional Education Southern Federal University, 5 Sorge St., Rostov-on-Don, 344090
2 - FSBI Scientific Research Radiophysical Institute
Abstract
Solar eclipse gives the unique possibility of the ionospheric processes studying in conditions of sufficiently rapid ?switching-on? and ?switching-off? of the source of ionization (~ 1-2 hours). It is known that solar eclipses are accom-panied with a complex of physicochemical and dynamic processes in the Earth ionosphere and atmosphere. So, the effects of solar eclipse can be investigated by various radiophysical methods, such as vertical and oblique sounding, transionospheric raying by radio signals from satellite, Doppler measurements, incoherent scattering radar measurements and so on. Experimental data, obtained during solar eclipse by different methods and equipment, indicate of the clearly de-fined response of ionospheric plasma parameters to short-time changing of solar flux.
Actually the decreasing of elec-tron density is observed in total thickness of the ionosphere during solar eclipse, the decreasing of total content, electron temperature and changing of ion drift velocity, ion drift direction at F-layer altitude are also occurred. As a rule there is a delay between eclipse phase and following ionosphere response. Acoustic-gravity waves and consequently traveling ionospheric disturbances occur as the result of movement of the moon shadow in the Earth atmosphere. The experimental results of investigation of ionosphere response to solar eclipse on the 29th of March 2006 based on oblique LFM sounding on paths of different path length and orientation and computer simulation of the eclipse are presented in the paper. The model of the ionosphere irregularity for computer simulation of HF radiowave propagation channel during the eclipse is suggested, while quiet ionosphere is described by IRI model. The parameters of the ionosphere irregularity are obtained during the simulation. It is shown that suggested model provides adequate description of the processes in lower ionosphere during the solar eclipse on March 29, 2006.
Keywords: solar eclipse, ionosphere, LFM sounding.
Information about sources of financing: -
1 - Federal State Educational Institution of Higher Professional Education Southern Federal University, 5 Sorge St., Rostov-on-Don, 344090
2 - FSBI Scientific Research Radiophysical Institute
Abstract
Solar eclipse gives the unique possibility of the ionospheric processes studying in conditions of sufficiently rapid ?switching-on? and ?switching-off? of the source of ionization (~ 1-2 hours). It is known that solar eclipses are accom-panied with a complex of physicochemical and dynamic processes in the Earth ionosphere and atmosphere. So, the effects of solar eclipse can be investigated by various radiophysical methods, such as vertical and oblique sounding, transionospheric raying by radio signals from satellite, Doppler measurements, incoherent scattering radar measurements and so on. Experimental data, obtained during solar eclipse by different methods and equipment, indicate of the clearly de-fined response of ionospheric plasma parameters to short-time changing of solar flux.
Actually the decreasing of elec-tron density is observed in total thickness of the ionosphere during solar eclipse, the decreasing of total content, electron temperature and changing of ion drift velocity, ion drift direction at F-layer altitude are also occurred. As a rule there is a delay between eclipse phase and following ionosphere response. Acoustic-gravity waves and consequently traveling ionospheric disturbances occur as the result of movement of the moon shadow in the Earth atmosphere. The experimental results of investigation of ionosphere response to solar eclipse on the 29th of March 2006 based on oblique LFM sounding on paths of different path length and orientation and computer simulation of the eclipse are presented in the paper. The model of the ionosphere irregularity for computer simulation of HF radiowave propagation channel during the eclipse is suggested, while quiet ionosphere is described by IRI model. The parameters of the ionosphere irregularity are obtained during the simulation. It is shown that suggested model provides adequate description of the processes in lower ionosphere during the solar eclipse on March 29, 2006.
Keywords: solar eclipse, ionosphere, LFM sounding.
Information about sources of financing: -