Birth of a Magnetosphere
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Authors
Nilsson, H.
Behar, E.
Burch, J.L.
Carr, C.M.
Eriksson, A.I.
Glassmeier, K.‐H.
Henri, P.
Galand, M.
Goetz, C.
Gunell, H.
Karlsson, T.
Discipline
Physical sciences
Subject
comet magnetosphere
comet nucleus
cometary plasma boundaries
electric fields
ion chemistry
plasma dynamics
Rosetta plasma observations
solar wind–atmosphere interaction
Audience
Scientific
Date
2021Publisher
Wiley-American Geophysical Union, Hoboken, NJ, USA
Metadata
Show full item recordDescription
A magnetosphere may form around an object in a stellar wind either due to the intrinsic magnetic field of the object or stellar wind interaction with the ionosphere of the object. Comets represent the most variable magnetospheres in our solar system, and through the Rosetta mission we have had the chance to study the birth and evolution of a comet magnetosphere as the comet nucleus approached the Sun. We review the birth of the comet magnetosphere as observed at comet 67P Churyumov–Gerasimenko, the formation of plasma boundaries and how the solar wind–atmosphere interaction changes character as the cometary gas cloud and magnetosphere grow in size. Mass loading of the solar wind leads to an asymmetric deflection of the solar wind for low outgassing rates. With increasing activity a solar wind ion cavity forms. Intermittent shock‐like features were also observed. For intermediate outgassing rate a diamagnetic cavity is formed inside the solar wind ion cavity, thus well separated from the solar wind. The cometary plasma was typically very structured and variable. The region of the coma dense enough to have significant collisions forms a special region with different ion chemistry and plasma dynamics as compared to the outer collision‐free region.
Citation
Nilsson, H.; Behar, E.; Burch, J.L.; Carr, C.M.; Eriksson, A.I.; Glassmeier, K.‐H.; Henri, P.; Galand, M.; Goetz, C.; Gunell, H.; Karlsson, T. (2021). Birth of a Magnetosphere. (Maggiolo, R., Ed.), Magnetospheres in the Solar System, Vol. 259, 427-439, Wiley-American Geophysical Union, Hoboken, NJ, USA, DOI: 10.1002/9781119815624.ch27.Identifiers
Type
Book chapter
Peer-Review
Yes
Language
eng