Details

Autor(en) / Beteiligte

• Zhang, Duan
• Zhang, Qing‐He
• Ma, Y.‐Z.
• Oksavik, Kjellmar
• Lyons, L. R.
• Zhang, Y.‐L.
• Nanan, Balan
• Xing, Z.‐Y.
• Liu, Jing
• Hairston, Marc
• Wang, X.‐Y.

Titel

Solar and Geomagnetic Activity Impact on Occurrence and Spatial Size of Cold and Hot Polar Cap Patches

Ist Teil von

• Geophysical research letters, 2021-09, Vol.48 (18), p.n/a

Ort / Verlag

Washington: John Wiley & Sons, Inc

Erscheinungsjahr

2021

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• This paper is a statistical survey of polar cap patches in relation to solar and geomagnetic activity. Ten thousand six hundred eighty‐eight patches have been identified from in situ plasma observations of the Defense Meteorological Satellite Program F16 satellite for 14 years (2005–2018). These patches are divided into two groups: (a) cold patches, which consist of dense but cold plasma; and (b) hot patches, which consist of dense but hot plasma. The statistical results indicate that (a) the occurrence of cold patches is clearly dependent on solar and geomagnetic activity, but hot patches don not show such dependence; (b) both cold and hot patches preferably appear in the winter season; (c) the spatial size of both cold and hot patches decreases (increases) with solar (geomagnetic) activity; (d) the spatial size of cold patches appears larger than that of hot patches under similar solar and geomagnetic activity. Plain Language Summary Polar cap patches are localized regions of enhanced plasma density in the polar ionosphere. They are associated with strong electron density gradients resulting in non‐negligible ionospheric scintillations for satellite communication and navigation systems. To characterize polar cap patches and investigate their statistical dependence on solar and geomagnetic activity, 10,688 patches have been identified from 14 years of in situ Defense Meteorological Satellite Program satellite plasma observations. These patches have been divided into cold and hot patches. We find that cold patches occur more frequently during solar maximum years. The spatial size of cold and hot patches decreases with solar activity (increases with geomagnetic activity). Furthermore, the spatial size of cold patches is larger than that of hot patches under similar solar and geomagnetic activity. Key Points The occurrence of cold patches is clearly dependent on solar and geomagnetic activity, while hot patches do not show such dependence In NH winter, the spatial size of both cold and hot patches decreases (increases) with solar (geomagnetic) activity In NH winter, the spatial size of cold patches appears larger than that of hot patches under similar solar and geomagnetic activity