Your search keyword '"Eclipse geometry"' showing total 3 results

1. Multi-instrument observations of the solar eclipse on 20 March 2015 and its effects on the ionosphere over Belgium and Europe

Author

Stankov Stanimir M., Bergeot Nicolas, Berghmans David, Bolsée David, Bruyninx Carine, Chevalier Jean-Marie, Clette Frédéric, De Backer Hugo, De Keyser Johan, D’Huys Elke, Dominique Marie, Lemaire Joseph F., Magdalenić Jasmina, Marqué Christophe, Pereira Nuno, Pierrard Viviane, Sapundjiev Danislav, Seaton Daniel B., Stegen Koen, Van der Linden Ronald, Verhulst Tobias G.W., and West Matthew J.

Subjects

Sun, Solar eclipse, Eclipse geometry, Ionosphere, Irregularities, Meteorology. Climatology, QC851-999

Abstract

A total solar eclipse occurred on 20 March 2015, with a totality path passing mostly above the North Atlantic Ocean, which resulted in a partial solar eclipse over Belgium and large parts of Europe. In anticipation of this event, a dedicated observational campaign was set up at the Belgian Solar-Terrestrial Centre of Excellence (STCE). The objective was to perform high-quality observations of the eclipse and the associated effects on the geospace environment by utilising the advanced space- and ground-based instrumentation available to the STCE in order to further our understanding of these effects, particularly on the ionosphere. The study highlights the crucial importance of taking into account the eclipse geometry when analysing the ionospheric behaviour during eclipses and interpreting the eclipse effects. A detailed review of the eclipse geometry proves that considering the actual obscuration level and solar zenith angle at ionospheric heights is much more important for the analysis than at the commonly referenced Earth’s surface or at the plasmaspheric heights. The eclipse occurred during the recovery phase of a strong geomagnetic storm which certainly had an impact on (some of) the ionospheric characteristics and perhaps caused the omission of some “low-profile” effects. However, the analysis of the ionosonde measurements, carried out at unprecedented high rates during the eclipse, suggests the occurrence of travelling ionospheric disturbances (TIDs). Also, the high temporal and spatial resolution measurements proved very important in revealing and estimating some finer details of the delay in the ionospheric reaction and the ionospheric disturbances.

Published

2017

2. Multi-instrument observations of the solar eclipse on 20 March 2015 and its effects on the ionosphere over Belgium and Europe

Author

Christophe Marqué, Nicolas Bergeot, Hugo De Backer, Johan De Keyser, Danislav Sapundjiev, Tobias Verhulst, Stanimir Stankov, Ronald Van der Linden, Matthew J. West, Koen Stegen, Joseph Lemaire, Jean-Marie Chevalier, Nuno Pereira, David Bolsée, Viviane Pierrard, Frédéric Clette, Carine Bruyninx, David Berghmans, Jasmina Magdalenic, Daniel B. Seaton, Elke D'Huys, Marie Dominique, and UCL - SST/ELI/ELIC - Earth & Climate

Subjects

Geochemistry & Geophysics, Atmospheric Science, AUGUST 11, 010504 meteorology & atmospheric sciences, Meteorology, Solar eclipse, Eclipse geometry, Solar zenith angle, lcsh:QC851-999, Astronomy & Astrophysics, 01 natural sciences, CORONA, Physics::Geophysics, Irregularities, 0103 physical sciences, Meteorology & Atmospheric Sciences, Astrophysics::Solar and Stellar Astrophysics, EUV, Ionosphere, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, Eclipse, Geomagnetic storm, High rate, Science & Technology, Sun – Solar eclipse – Eclipse geometry – Ionosphere – Irregularities, Sun, GRAVITY-WAVES, LYRA, Space and Planetary Science, Physical Sciences, Physics::Space Physics, lcsh:Meteorology. Climatology, Astrophysics::Earth and Planetary Astrophysics, Ionosonde, Geology, Recovery phase

Abstract

© S.M. Stankov et al., Published by EDP Sciences 2017. A total solar eclipse occurred on 20 March 2015, with a totality path passing mostly above the North Atlantic Ocean, which resulted in a partial solar eclipse over Belgium and large parts of Europe. In anticipation of this event, a dedicated observational campaign was set up at the Belgian Solar-Terrestrial Centre of Excellence (STCE). The objective was to perform high-quality observations of the eclipse and the associated effects on the geospace environment by utilising the advanced space- and ground-based instrumentation available to the STCE in order to further our understanding of these effects, particularly on the ionosphere. The study highlights the crucial importance of taking into account the eclipse geometry when analysing the ionospheric behaviour during eclipses and interpreting the eclipse effects. A detailed review of the eclipse geometry proves that considering the actual obscuration level and solar zenith angle at ionospheric heights is much more important for the analysis than at the commonly referenced Earth's surface or at the plasmaspheric heights. The eclipse occurred during the recovery phase of a strong geomagnetic storm which certainly had an impact on (some of) the ionospheric characteristics and perhaps caused the omission of some "low-profile" effects. However, the analysis of the ionosonde measurements, carried out at unprecedented high rates during the eclipse, suggests the occurrence of travelling ionospheric disturbances (TIDs). Also, the high temporal and spatial resolution measurements proved very important in revealing and estimating some finer details of the delay in the ionospheric reaction and the ionospheric disturbances. ispartof: JOURNAL OF SPACE WEATHER AND SPACE CLIMATE vol:7 status: published

Published

2017

3. The mystery and beauty of total solar eclipses

Author

Chandrasekhar, T.

Published

2002