When aerosol overlie bright clouds, their radiative impact on the incident light can be either positive or negative. This difference in radiative impact promotes difficulties in remote sensing aerosol properties, which have shown biases in aerosol …
The airborne sunphotometer – 4STAR (Spectrometers for Sky-Scanning Sun Tracking Atmospheric Research) – measured the aerosol optical depth (AOD) spectra and trace gases from the NASA DC-8 during the KORUS-AQ (KORean-US Air Quality) experiment in …
Aerosol, clouds, and their interactions contribute to the largest uncertainties in predicting future climate and understanding atmospheric processes. Airborne sunphotometry and sky radiometry is able to quantify aerosol and cloud properties useful …
We show the consistency over spatial scales of the Aerosol Optical Depth (AOD), and the aerosol intensive properties (Angstrom exponent - AE, fine mode fraction - FMF) measured by an airborne platform over Korea during the KORUS-AQ (KORean-US Air …
Aerosol, clouds, and their interactions contribute to the largest uncertainties in predicting future climate and understanding atmospheric processes. Airborne sunphotometry and sky radiometry is able to quantify aerosol and cloud properties useful …