Electron Density Depletion Region Observed in the Polar Cap Ionosphere
Permanent lenke
https://hdl.handle.net/10037/23876Dato
2021-12-16Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Bjoland, Lindis Merete; Ogawa, Y.; Løvhaug, Unni Pia; Lorentzen, Dag Arne; Hatch, Spencer Mark; Oksavik, KjellmarSammendrag
This paper presents and discusses electron density depletion regions observed with the incoherent scatter EISCAT Svalbard Radar (ESR) located at 75.43°N geomagnetic latitude. The data include several decades of measurements, which make them suitable for studying statistical features and characteristics of the ionospheric parameters. Here we focus on the electron density depletions and their dependence on diurnal and seasonal variations and solar activity. An electron density depletion region is identified in the ESR data in the early morning sector. This depletion region seems to be clearest during equinox and winter and moderate/high solar activity. An enhancement in the ion temperature is often co-located with the electron density depletion region. The ion temperature enhancement could indicate that ion frictional heating is related to the electron density depletion region. However, during summer when the solar activity is low, the electron density depletion is not observed although the ion temperature is enhanced, suggesting that formation of the electron density depletion regions due to ion frictional heating may depend on the background effective temperature and O/N2 ratio. In addition, seasonal changes in the solar zenith angle could also contribute to the formation of the depletion region.
Er en del av
This article is partly based on the submitted manuscript in the following publication:
Bjoland, L.M. (2018). Radar studies of plasma parameters in the polar cap and the auroral zone (Doctoral thesis). https://hdl.handle.net/10037/31573.
Forlag
WileySitering
Bjoland, Ogawa, Løvhaug, Lorentzen, Hatch, Oksavik. Electron Density Depletion Region Observed in the Polar Cap Ionosphere. Journal of Geophysical Research (JGR): Space Physics. 2021;126(1)Metadata
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