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RSS FeedsRemote Sensing, Vol. 15, Pages 830: Observed Quasi 16-Day Wave by Meteor Radar over 9 Years at Mengcheng (33.4°N, 116.5°E) and Comparison with the Whole Atmosphere Community Climate Model Simulation (Remote Sensing)

 
 

1 february 2023 17:12:20

 
Remote Sensing, Vol. 15, Pages 830: Observed Quasi 16-Day Wave by Meteor Radar over 9 Years at Mengcheng (33.4°N, 116.5°E) and Comparison with the Whole Atmosphere Community Climate Model Simulation (Remote Sensing)
 


In this study, we present nearly 9 years of the quasi16-day wave (Q16DW) in the mesosphere and lower thermosphere (MLT) wind at middle latitudes based on long-term wind observations between April 2014 and December 2022 by the Mengcheng (33.4°N, 116.5°E) meteor radar. There are two maxima in the Q16DW amplitude in the winter and early spring (near the equinox) and a minimum during the summer. The Q16DWs are relatively weak in meridional winds with no obvious seasonal variations. On average, the phase of the zonal Q16DW is larger than the meridional components with a mean difference that is slightly less than 90°, which suggests that there are orthogonal relationships between them. During the bursts of Q16DW, the periods in winter range between 15 and 18 d, whereas in summer, the periods of the planetary waves have a wider range. The wintertime Q16DW anomalies are, on average, amplified when the zonal wind shear anomalies increase, suggesting that barotropic instability may be a source of the Q16DW. Although the interannual variability of Q16DW amplitudes has been suggested observationally, there is no significant relationship between the interannual wind shear variability and Q16DW at most altitudes.


 
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Remote Sensing, Vol. 15, Pages 831: Few-Shot Remote Sensing Image Scene Classification Based on Metric Learning and Local Descriptors (Remote Sensing)
Remote Sensing, Vol. 15, Pages 832: High-Resolution Imaging of Radiation Brightness Temperature Obtained by Drone-Borne Microwave Radiometer (Remote Sensing)
 
 
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