Dayside Upper‐Thermospheric Density Fluctuations as Observed by GRACE and GRACE‐FO at ∼500 km Height

We statistically investigate fluctuation amplitudes (normalized to the background values) of dayside low‐/mid‐latitude upper‐thermospheric mass density as observed by the Gravity Recovery and Climate Experiment (GRACE) and GRACE‐Follow‐On (GRACE‐FO) spacecraft at ∼500 km altitude between 2002 and 20...

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Bibliographic Details
Published in:Journal of geophysical research. Space physics 2023-01, Vol.128 (1), p.n/a
Main Authors: Park, Jaeheung, IJssel, Jose, Siemes, Christian
Format: Article
Language:English
Subjects:
accelerometer
Altitude
Climatology
Density
Fluctuations
GRACE
GRACE (experiment)
GRACE‐FO
gravity wave
Gravity waves
Latitude
Solar activity
Solar rotation
Spacecraft
Tertiary
Thermosphere
upper thermosphere
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Summary:We statistically investigate fluctuation amplitudes (normalized to the background values) of dayside low‐/mid‐latitude upper‐thermospheric mass density as observed by the Gravity Recovery and Climate Experiment (GRACE) and GRACE‐Follow‐On (GRACE‐FO) spacecraft at ∼500 km altitude between 2002 and 2022. There are three new findings in our results. First, the climatology closely replicates previous studies on stratospheric and upper‐thermospheric gravity waves (GWs) below the GRACE(‐FO) altitudes. For example, in low‐latitude regions, the fluctuations are stronger above continents than in the oceanic area. Mid‐latitude fluctuations prefer the local winter hemisphere to the summer, and the South American/Atlantic region in June solstice hosts stronger fluctuations than in any other low‐/mid‐latitude locations or seasons. Fluctuations are more intense under lower solar activity. The above‐mentioned consistency of the GRACE(‐FO) results with previous lower‐altitude GW studies confirms that GWs can penetrate up to 500 km. Second, the anti‐correlation of upper‐thermospheric GW with solar activity, which has been earlier reported for multi‐year time scales, can also be identified on the scale of the solar rotation period (∼27 days). Third, we demonstrate asymmetry between pre‐noon and post‐noon GWs. The former exhibits stronger GW activity, which may result from the colder thermosphere being more favorable for intense mass density fluctuations via secondary/tertiary GW generation. Key Points We investigated dayside upper‐thermospheric mass density fluctuations using Gravity Recovery and Climate Experiment (GRACE) and GRACE‐FO data at ∼500 km height from 2002 to 2022 Seasonal/longitudinal distributions of the fluctuations bear clear signatures of gravity waves (GWs) originating from the lower atmosphere Dayside upper‐thermospheric GWs are stronger in the pre‐noon hours than in the afternoon
ISSN:2169-9380
2169-9402
DOI:10.1029/2022JA030976