Title :
The complex dielectric constant of pure and sea water from microwave satellite observations
Author :
Meissner, Thomas ; Wentz, Frank J.
Author_Institution :
Remote Sensing Syst., Santa Rosa, CA, USA
Abstract :
We provide a new fit for the microwave complex dielectric constant of water in the salinity range between 0-40 ppt using two Debye relaxation wavelengths. For pure water, the fit is based on laboratory measurements in the temperature range between -20°C and +40°C including supercooled water and for frequencies up to 500 GHz. For sea water, our fit is valid for temperatures between -2°C and +29°C and for frequencies up to at least 90 GHz. At low frequencies, our new model is a modified version of the Klein-Swift model. We compare the results of the new fit with various other models and provide a validation using an extensive analysis of brightness temperatures from the Special Sensor Microwave Imager.
Keywords :
microwave measurement; oceanographic techniques; permittivity; radiometry; remote sensing; seawater; temperature measurement; -2 to 29 C; -20 to 40 C; 500 GHz; 90 GHz; Debye relaxation wavelengths; Klein-Swift model; Special Sensor Microwave Imager; brightness temperatures; dielectric constant; microwave radiometers; microwave satellite observations; ocean surface emissivity; permittivity; pure water; sea water; supercooled water; temperature; Dielectric constant; Dielectric measurements; Frequency measurement; Laboratories; Ocean temperature; Satellites; Sea measurements; Temperature distribution; Temperature measurement; Wavelength measurement; Dielectric constant of pure and sea water; SSM/I; Special Sensor Microwave/Imager; microwave radiometers; ocean surface emissivity; permittivity;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2004.831888
