Version 3: Shortwave spectral Ice Cloud Bulk Single-Scattering Property Models

Ice cloud bulk single-scattering property models are now available at individual wavelengths between 0.4 – 3.0 µm at 0.01 µm resolution. However, if you want models over a wider range of wavelengths, we recommend that you pull over the files that include the full phase matrix as these models are provided over the full spectral range from 0.2 µm (UV) to 100 µm (Far-IR) - use link in left column to navigate there.

There are currently 4 sets of models available:

(1) One set of models is based on a general habit mixture (GHM) involving a set of 9 habits: solid/hollow bullet rosettes, solid/hollow columns, plates, droxtals, small/large aggregate of plates, and an aggregate of solid columns. The models are based on the assumption of severely roughened particles.

(2) Another set of models is based a mixture of habits developed to more closely align with those found in deep tropical convection (no droxtals, but more aggregates of plates).

(3) A third set of models is based on a habit mixture developed for more for midlatitude/polar ice clouds (droxtals included but not aggregates of plates).

(4) A fourth set of models is based on a single assumed habit: the aggregate of solid columns (ASC). This habit has the lowest asymmetry parameter at a visible wavelength.

The three habit mixtures are described in Baum et al. (2011), with the full reference at the bottom of this page. The files are in NetCDF format with a single file per wavelength. Properties are a function of effective diameter and include the asymmetry parameter, single-scattering albedo, scattering phase function at 498 angles (also provided), the average ice water content inferred from idealized habits and the microphysical data used to generate the models (provided for general information), and the extinction coefficient (β) divided by the IWC. The scientist who asked me to include this parameter has since retired, but perhaps someone else will find it useful.

Because the particle scattering properties are based on severe surface roughening, the phase functions will be much smoother (e.g., no halos) and the asymmetry parameters will be lower in the shortwave region than those based on smooth-faceted particles. We anticipate that if shortwave channels are used to infer optical thickness and effective radius/diameter, the optical thicknesses based on these roughened particles will be lower and the effective radius/diameter will be larger than if smooth particles are assumed.

The NetCDF files also include the wavelength, the version number of the models (currently at 3.5) and the creation date. The spectral models are combined in a tar file - for access to the compressed (gzip) tar file, click on the "Download Models" button at the top of the page. Each file is about 6 MB.