Horizontal Spatial Correlation of the Ionospheric Day‐To‐Day Variations at Low Latitudes Based on GOLD Nmax Data

Horizontal Spatial Correlation of the Ionospheric Day‐To‐Day Variations at Low Latitudes Based on GOLD Nmax Data

Peak electron density data derived from GOLD measurements during 2018–2022 are used to analyze the magnitudes and correlations of ionospheric diurnal variability at low latitudes. The correlation distance describes the correlations between spatial locations and is defined in this paper as the angula...

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Veröffentlicht in:Space Weather 2023-12, Vol.21 (12), p.n/a
Hauptverfasser: Chen, Jiawen, Zhong, Jiahao, Hao, Yongqiang, Wan, Xin, Li, Qiaoling, Tang, Zijing, Song, Xingyan, Han, Hao, Wang, Kang, Kuai, Jiawei, Ren, Aojun
Format: Artikel
Sprache:eng
Schlagworte:
Correlation coefficient
Correlation coefficients
correlation distance
Covariance matrix
Data assimilation
Data collection
day‐to‐day variations
EIA
Electron density
Empirical analysis
Empirical models
Geomagnetic activity
Geomagnetic latitude
Geomagnetism
GOLD
ionosphere
Ionospheric forecasting
low latitudes
Seasons
Solar activity
Solar flux
Statistical analysis
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Zusammenfassung:Peak electron density data derived from GOLD measurements during 2018–2022 are used to analyze the magnitudes and correlations of ionospheric diurnal variability at low latitudes. The correlation distance describes the correlations between spatial locations and is defined in this paper as the angular separation at which the correlation coefficient decreases from 1 to 0.7. Variations in correlation distance with local time, season, magnetic latitude, solar activity, and geomagnetic activity are discussed in this study. The average value of the zonal correlation distance is approximately 8.55° and 3.56° for the meridional direction at low geomagnetic latitudes (magnetic latitudes
ISSN:1542-7390
1539-4964
1542-7390
DOI:10.1029/2023SW003627