CCPP SciDoc  v6.0.0
Common Community Physics Package Developed at DTC
module_radsw_cldprtb Module Reference

This module contains cloud radiative property coefficients. More...

Variables

updated Hu and Stamnes (1993) coef for cloud liquid condensate (used if iswcliq=2)
real(kind=kind_phys), dimension(58, nblow:nbhgh), public extliq1
 extinction coefficients More...
 
real(kind=kind_phys), dimension(58, nblow:nbhgh), public extliq2
 extinction coefficients More...
 
real(kind=kind_phys), dimension(58, nblow:nbhgh), public ssaliq1
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(58, nblow:nbhgh), public ssaliq2
 extinction coefficients More...
 
real(kind=kind_phys), dimension(58, nblow:nbhgh), public asyliq1
 asymmetry coefficients More...
 
real(kind=kind_phys), dimension(58, nblow:nbhgh), public asyliq2
 extinction coefficients More...
 
Streamer V3 (Key 2002) coefficients for cloud ice condensate (used if iswcice=2)
real(kind=kind_phys), dimension(43, nblow:nbhgh), public extice2
 extinction coefficients More...
 
real(kind=kind_phys), dimension(43, nblow:nbhgh), public ssaice2
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(43, nblow:nbhgh), public asyice2
 asymmetry coefficients More...
 
Fu(1996) coefficients for cloud ice condensate (used if iswcice=3)
real(kind=kind_phys), dimension(46, nblow:nbhgh), public extice3
 extinction coefficients More...
 
real(kind=kind_phys), dimension(46, nblow:nbhgh), public ssaice3
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(46, nblow:nbhgh), public asyice3
 asymmetry coefficients More...
 
real(kind=kind_phys), dimension(46, nblow:nbhgh), public fdlice3
 fdelta from fu, unitless More...
 
Ebert and Curry (1992) coefficients for cloud ice condensate (used if iswcice=1)
real(kind=kind_phys), dimension(5), public abari
 extinction coefficients More...
 
real(kind=kind_phys), dimension(5), public bbari
 extinction coefficients More...
 
real(kind=kind_phys), dimension(5), public cbari
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(5), public dbari
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(5), public ebari
 asymmetry coefficients More...
 
real(kind=kind_phys), dimension(5), public fbari
 asymmetry coefficients More...
 
Fu (2001, personal communications) coefficients for cloud snow particles
real(kind=kind_phys), public a0s
 optical depth coefficients More...
 
real(kind=kind_phys), public a1s
 optical depth coefficients More...
 
real(kind=kind_phys), dimension(nblow:nbhgh), public b0s
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(nblow:nbhgh), public b1s
 optical depth coefficients More...
 
real(kind=kind_phys), dimension(nblow:nbhgh), public c0s
 asymmetry coefficients More...
 
Chou(1999) coefficients for cloud rain particles
real(kind=kind_phys), public a0r
 optical depth coefficients More...
 
real(kind=kind_phys), public a1r
 optical depth coefficients More...
 
real(kind=kind_phys), dimension(nblow:nbhgh), public b0r
 single scattering albedo coefficients More...
 
real(kind=kind_phys), dimension(nblow:nbhgh), public c0r
 asymmetry coefficients More...
 

Detailed Description

For liquid water clouds, cloud radiative property coefficients are derived from [95]. For ice clouds, there are various choices for model applications, including data tables derived from [47], from the Streamer scheme [104], or from [66] . Components of snow particles and rain droplets are not parameterized in the operational NEMS/GSM cloud microphysics scheme, and their radiative properties are neither well established yet. Coefficients for those components listed in the module are more experimental oriented that include the entries for snow from Fu (2001, personal communications), and for rain from [40].

In common practices, the cloud radiative properties (optical depth, single scattering albedo, and asymmetry factor) are usually parametized in the form of a truncated Laurent series (generalized Taylor series)

\[ f(x)=\sum_{n=-N}^Na_{n}(x-c)^n \]

Where \(x\) represents the cloud particle's effective radius (in Fu's scheme, it is called as generalized size parameter) in unites of micro-meters, \(a_{n}\) represents the corresponding coefficients, and the constant \(c\) will be zero. The number of terms, \(n\), are usually kept small, such as \(n=0,-1\) for the extinction coefficients and \(n=0,1,2\) (or a bit larger) for the coefficients of single scattering albedo and asymmetry factor. When using the Ebert and Curry cloud optical property scheme, cloud optical properties are computed 'on the fly' by using the power series in five broad spectral bands (similar expressions are used for Fu's snow and Chou's rain schemes). While for other schemes, optical properties are precomputed for each of the 14 RRTMG-SW bands in corresponding to evenly distributed particle effective radius (e.g. 1 or 3 micro-meter intervals for water or ice clouds, respectively). Simple linear interpolations will be used during radiative transfer calculations.