Equatorial aurora: the aurora-like airglow in the negative magnetic anomaly
Author(s) -
Fei He,
Yong Wei,
Weixing Wan
Publication year - 2020
Publication title -
national science review
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.433
H-Index - 54
eISSN - 2095-5138
pISSN - 2053-714X
DOI - 10.1093/nsr/nwaa083
Subject(s) - south atlantic anomaly , earth's magnetic field , airglow , anomaly (physics) , geophysics , physics , atmosphere (unit) , magnetic anomaly , geomagnetic pole , atmospheric sciences , ionosphere , polar , dipole , magnetosphere , magnetic dipole , magnetic field , geology , van allen radiation belt , astronomy , meteorology , condensed matter physics , quantum mechanics
The most fantastic optical phenomena in the Earth's upper atmosphere are the auroras. They are highly informative indicators of solar activity, geomagnetic activity, upper atmospheric structures and dynamics, and magnetospheric energetic particles. An area where the geomagnetic field differs significantly from the expected symmetric dipole, such as at the South Atlantic Anomaly, where the magnetic field intensity is low, gives rise to stronger precipitation of energetic particles into the upper atmosphere. Impact excitation and the subsequent airglow emissions exhibit aurora-like dynamic signatures. Nomenclatures of nonpolar aurora or equatorial auroras are similar to those used with the polar auroras owing to their similar excitation mechanisms. This paper provides an overview of the knowledge and the challenges concerning auroral activity at the South Atlantic Anomaly, or more generally, at the negative magnetic anomaly. We emphasize systematic investigation of the equatorial auroras to reveal the temporal and spatial evolution of the magnetic anomaly and the behaviour of energetic particles in near-Earth space.
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