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Global pictures of the ozone field,from high altitudes,from DE-I
Authors:G.M. Keating  L. Frank  J. Craven  M. Shapiro  D. Young  P. Bhartia
Affiliation:1. NASA Langley Research Center, Hampton, VA, USA;7. University of Iowa, Iowa City, IA, USA;71. National Center for Atmospheric Research, Boulder, CO, USA;2. Systems and Applied Sciences Corp., Hampton, VA, USA;3. Systems and Applied Sciences Corp., Riverdale, MD, USA
Abstract:Using the imaging instrumentation aboard the Dynamics Explorer spacecraft (DE-I), total column ozone densities are obtained in the sunlit hemisphere by measuring the intensities of backscattered solar ultraviolet radiation with multiple filters and multiple photometers. The high apogee altitude (23,000 km) of the eccentric polar orbit allows high resolution global-scale images of the terrestrial ozone field to be obtained within 12 minutes. Previous ozone-monitoring spacecraft have required much longer time periods for comparable spatial coverage because of their lower altitudes (<1200 km). The much higher altitude of DE-I also provides hours of continuous imaging of features compared to minutes or seconds with previous spacecraft. Near perigee, high resolution images can be gained with pixel size as small as 3 km to view mesoscale atmospheric variations. Utilizing these data, the effects of planetary-scale, synoptic-scale, and mesoscale dynamical processes, which control the distribution of ozone near the tropopause, can be studied. Preliminary results show short-term (less than one day) variations in the synoptic ozone field and these variations appear to be in accord with meteorological data. Spatial variations in the ozone field are found to be highly negatively correlated with tropopause altitude.
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