QuikSCAT geophysical model function for tropical cyclones andapplication to Hurricane Floyd |
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Authors: | Yueh SH Stiles BW Wu-Yang Tsai Hua Hu Liu WT |
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Affiliation: | Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA; |
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Abstract: | The QuikSCAT radar measurements of several tropical cyclones in 1999 have been studied to develop the geophysical model function (GMF) of Ku-band radar σ0 values (normalized radar cross section) for extreme high wind conditions. To account for the effects of precipitation, the authors analyze the co-located rain rates from the Special Sensor Microwave/Imager (SSM/I) and propose the rain rate as a parameter of the GMF. The analysis indicates the deficiency of the NSCAT2 GMF developed for the NASA scatterometer, which overestimates the ocean σ0 for tropical cyclones and ignores the influence of rain. It is suggested that the QuikSCAT σ0 is sensitive to the wind speed of up to about 40-50 m s-1. The authors introduce modifications to the NSCAT2 GMF and apply the modified GMF to the QuikSCAT observations of Hurricane Floyd. The QuikSCAT wind estimates for Hurricane Floyd in 1999 was improved with the maximum wind speed reaching above 60 m s-1. The authors perform an error analysis by comparing the QuikSCAT winds with the analyses fields from the National Oceanic and Atmospheric Administration (NOAA) Hurricane Research Division (HRD). The reasonable agreement between the improved QuikSCAT winds and the HRD analyses supports the applications of scatterometer wind retrievals for hurricanes |
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