Autor: |
Alexander Lavrukhin, David Parunakian, Dmitry Nevskiy, Ute Amerstorfer, Andreas Windisch, Sahib Julka, Christian Möstl, Martin Reiss, Rachel Bailey |
Rok vydání: |
2020 |
Zdroj: |
Europlanet Science Congress 2020 |
DOI: |
10.5194/epsc2020-826 |
Popis: |
The magnetosphere of Mercury is rather small and highly dynamic, due to its weak internal magnetic field and its close proximity to the Sun. The changing solar wind conditions principally determine the locations of both the Hermean bow shock and magnetopause. In 2011 – 2015 MESSENGER spacecraft completed more than 4000 orbits around Mercury, thus giving a data of more than 8000 crossings of bow shock and magnetopause of the planet. This makes it possible to study in detail the bow shock, the magnetopause and the magnetosheath structures. In this work, we determine crossings of the bow shock and the magnetopause of Mercury by applying machine learning methods to the MESSENGER magnetometer data. We try to identify the crossings for the complete orbital mission and model the average three-dimensional shape of these boundaries depending on the external interplanetary magnetic field (IMF). Further, we try to clarify the dependence of the two boundary locations on the heliocentric distance of Mercury and on the solar activity cycle phase. Also, we study the effect of the IMF partial penetration into the Hermean magnetosphere. The results are compared with the obtained previously in other works. This work may be of interest for future Mercury research related to the BepiColombo spacecraft mission, which will enter the orbit around the planet at December 2025. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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