BepiColombo mission confirms stagnation region of Venus and reveals its large 
extent

Persson, M.; Aizawa, S.; André, N.; Barabash, S.; Saito, Y.; Harada, Y.; Heyner, D.; Orsini, S.; Fedorov, A.; Mazelle, C.; Futaana, Y.; Hadid, L. Z.; Volwerk, M.; Collinson, G.; Sanchez-Cano, B.; Barthe, A.; Penou, E.; Yokota, S.; Génot, V.; Sauvaud, J. A.; Delcourt, D.; Fraenz, M.; Modolo, R.; Milillo, A.; Auster, H. -U.; Richter, I.; Mieth, J. Z. D.; Louarn, P.; Owen, C. J.; Horbury, T. S.; Asamura, K.; Matsuda, S.; Nilsson, H.; Wieser, M.; Alberti, T.; Varsani, A.; Mangano, V.; Mura, A.; Lichtenegger, H.; Laky, G.; Jeszenszky, H.; Masunaga, K.; Signoles, C.; Rojo, M.; Murakami, G.

doi:10.1038/s41467-022-35061-3

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BepiColombo mission confirms stagnation region of Venus and reveals its large extent

Persson, M., Aizawa, S., André, N., Barabash, S., Saito, Y., Harada, Y., et al. (2022). BepiColombo mission confirms stagnation region of Venus and reveals its large extent. Nature Communications, 13, 7743. doi:10.1038/s41467-022-35061-3.

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Datensatz-Permalink: https://hdl.handle.net/21.11116/0000-000C-9803-5 Versions-Permalink: https://hdl.handle.net/21.11116/0000-000C-9804-4

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https://ui.adsabs.harvard.edu/abs/2022NatCo..13.7743P (beliebiger Volltext) Open Access Status unbekannt

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Persson, M.^{1, 2}, Autor
Aizawa, S., Autor
André, N., Autor
Barabash, S., Autor
Saito, Y., Autor
Harada, Y., Autor
Heyner, D.³, Autor
Orsini, S., Autor
Fedorov, A., Autor
Mazelle, C., Autor
Futaana, Y., Autor
Hadid, L. Z., Autor
Volwerk, M.⁴, Autor
Collinson, G., Autor
Sanchez-Cano, B., Autor
Barthe, A., Autor
Penou, E., Autor
Yokota, S., Autor
Génot, V., Autor
Sauvaud, J. A., Autor
Delcourt, D., AutorFraenz, M.⁵, Autor         Modolo, R., AutorMilillo, A., AutorAuster, H. -U., AutorRichter, I., AutorMieth, J. Z. D., AutorLouarn, P., AutorOwen, C. J., AutorHorbury, T. S., AutorAsamura, K., AutorMatsuda, S., AutorNilsson, H., AutorWieser, M., AutorAlberti, T., AutorVarsani, A., AutorMangano, V., AutorMura, A., AutorLichtenegger, H., AutorLaky, G., AutorJeszenszky, H., AutorMasunaga, K., AutorSignoles, C., AutorRojo, M., AutorMurakami, G., Autor mehr..

Affiliations:
1Center for Adaptive Behavior and Cognition, Max Planck Institute for Human Development, Max Planck Society, ou_2074285
2External Organizations, ou_persistent22
3IMPRS on Physical Processes in the Solar System and Beyond, Max Planck Institute for Solar System Research, Max Planck Society, ou_1832290
4Space Plasma Physics of Near-Earth Environment, MPI for Extraterrestrial Physics, Max Planck Society, ou_159897
5Planetary Science Department, Max Planck Institute for Solar System Research, Max Planck Society, ou_1832288

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Zusammenfassung: The second Venus flyby of the BepiColombo mission offer a unique opportunity to make a complete tour of one of the few gas-dynamics dominated interaction regions between the supersonic solar wind and a Solar System object. The spacecraft pass through the full Venusian magnetosheath following the plasma streamlines, and cross the subsolar stagnation region during very stable solar wind conditions as observed upstream by the neighboring Solar Orbiter mission. These rare multipoint synergistic observations and stable conditions experimentally confirm what was previously predicted for the barely-explored stagnation region close to solar minimum. Here, we show that this region has a large extend, up to an altitude of 1900 km, and the estimated low energy transfer near the subsolar point confirm that the atmosphere of Venus, despite being non-magnetized and less conductive due to lower ultraviolet flux at solar minimum, is capable of withstanding the solar wind under low dynamic pressure.

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Datum: Erschienen: 2022

Publikationsstatus: Erschienen

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Identifikatoren: DOI: 10.1038/s41467-022-35061-3
ISSN: 2041-1723

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Titel: Nature Communications

Genre der Quelle: Zeitschrift

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Seiten: - Band / Heft: 13 Artikelnummer: - Start- / Endseite: 7743 Identifikator: -

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