[1]The diurnal eastward propagating nonmigrating tide of wave number 3 (DE3) has been observed as wave 4 from slowly precessing satellites, for both the ionized and neutral atmospheres. This tide has been identified as arising from deep tropical convection, propagating into the thermosphere and ionosphere, where it has been observed at equatorial latitudes. This feature was previously identified in the Wind Imaging Interferometer (WINDII) O (~1S) 557.7 nm emission rate measurements at 250 km in the high-latitude region as well as the equatorial region. The WINDII wind measurements presented here provide detailed vertical structure from the MLT (Mesosphere and Lower Thermosphere) region to the thermosphere, 100 km to 250 km altitude, the first time that the DE3 winds have been measured over this vertical range. In the present work, the longitudinal propagation of wave 4 at different altitudes is discussed for the daytime and nighttime. The seasonal variations of wave 4 amplitude are compared for different altitudes and latitude regions.
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机译:日东传播nonmigrating [1]潮波数3 (DE3)已经被观察到从慢慢的进动卫星,波4电离和中性大气层。潮已被确认为因深热带对流,传播到热大气层、电离层,它现在所处的位置观察到在中低纬度地区。以前在风成像识别吗干涉仪(WINDII) O (~ 1 s) 557.7 nm发射率测量在高纬度地区250公里地区以及赤道地区。这里给出WINDII风力测量提供的详细的MLT的垂直结构(中间层和较低的热大气层)地区热电离层,100公里至250公里的高度第一次DE3风向测量在这个垂直距离。纵向波传播4讨论了不同海拔白天和夜间。振幅比较不同的海拔和纬度地区。
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