Abstract
Atmospheric gravity waves, generated primarily from tropospheric mesoscale convective complexes and frontal systems, propagate into the middle atmosphere and subsequently impact the entire global circulation. Furthermore, the short-period/long vertical wavelength portion of the gravity wave spectrum can propagate into the thermosphere, where such waves can potentially "seed" equatorial spread-F (ESF), an instability phenomena which causes scintillation in the radio portion of the electromagnetic spectrum. Recently, the desire to acquire 4-6 hour forecasts of ESF has come to the forefront of upper atmospheric research because of the impacts on radio communications and GPS signals. However, to extend these forecasts beyond the 6 hour limit, the modeling of the synoptic gravity waves associated with ESF needs to be addressed. As such, in this paper we present a global gravity wave forecasting model called FOREGRATS (FOREcasting of Gravity waves via Ray-tracing algorithms with prescribed Tropospheric Sources), which uses a myriad of data resources to identify dominant tropospheric gravity wave sources, prescribe a relevant source spectrum, and then propagate the resultant gravity waves through the middle and upper atmosphere via a linear ray-tracing theory. An example of the entire data assimilation and forecasting processes is presented, outlining each of the major components of the model.
Original language | English (US) |
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Pages | 5075-5080 |
Number of pages | 6 |
State | Published - 2005 |
Event | 85th AMS Annual Meeting, American Meteorological Society - Combined Preprints - San Diego, CA, United States Duration: Jan 9 2005 → Jan 13 2005 |
Other
Other | 85th AMS Annual Meeting, American Meteorological Society - Combined Preprints |
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Country/Territory | United States |
City | San Diego, CA |
Period | 1/9/05 → 1/13/05 |
All Science Journal Classification (ASJC) codes
- General Engineering