«Aerosol variability, synoptic - scale processes, and their link to the cloud
microphysics over the northeast Pacific during MAGIC.»
Not exact matches
Given current uncertainties in representing convective precipitation
microphysics and the current inability to find a clear obser - vational constraint that favors one version of the authors» model
over the others, the implications of this ability to engineer climate sensitivity need to be considered when estimating the uncertainty in climate projections.»
«We've identified
over a dozen such cases, and we are looking into the details of cloud dynamics and
microphysics,» she says.
The most significant changes in the new D - series cloud datasets are: 1) revised radiance calibrations to remove spurious changes in the long - term record, 2) increased cirrus detection sensitivity
over land, 3) increased low - level cloud detection sensitivity in polar regions, 4) reduced biases in cirrus cloud properties using an ice crystal
microphysics model in place of a liquid droplet
microphysics model, and 5) increased detail about the variations of cloud properties.
This Russian heritage is combined with the best knowledge of cloud
microphysics acquired and described in the western literature
over several decades.
Over the past 10 years, however, an alternative school of thought has emerged: that detailed
microphysics need not be included in models in order to accurately simulate tropical tropospheric humidity.